Debugged OT-PSI

2024-03-22 13:30:44 +08:00 · 2015-06-08 13:01:13 +02:00 · 2015-06-08 13:01:13 +02:00 · 6ba540667e
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                    GNU AFFERO GENERAL PUBLIC LICENSE
                       Version 3, 19 November 2007
 Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
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--- a/7
+++ b/7
@ -57,7 +57,7 @@ OBJECTS_MIRACL=${MIRACL_LIB_DIR}/*.o
 MIRACL_LIB=${EXT}/miracl_lib/miracl.a
-all: miracl core bench demo
+all: miracl core bench demo cuckoo
 	@echo "make all done."
@ -72,6 +72,9 @@ bench:
 demo:  
 	${CC} -o demo.exe ${SRC}/mains/psi_demo.cpp ${OBJECTS_DHPSI} ${OBJECTS_OTPSI} ${OBJECTS_NAIVE} ${OBJECTS_SERVERAIDED} ${OBJECTS_UTIL} ${OBJECTS_HASHING} ${OBJECTS_CRYPTO} ${OBJECTS_OT} ${OBJECTS_MIRACL} ${CFLAGS} ${DEBUG_OPTIONS} ${LIBRARIES} ${MIRACL_LIB} ${INCLUDE} ${COMPILER_OPTIONS}
 cuckoo:  
 	${CC} -o cuckoo.exe ${SRC}/mains/cuckoo_analysis.cpp ${OBJECTS_UTIL} ${OBJECTS_HASHING} ${OBJECTS_CRYPTO} ${OBJECTS_MIRACL} ${CFLAGS} ${DEBUG_OPTIONS} ${LIBRARIES} ${MIRACL_LIB} ${INCLUDE} ${COMPILER_OPTIONS}
 # this will create a copy of the files in ${SOURCES_MIRACL} and its sub-directories and put them into ${MIRACL_LIB_DIR} without sub-directories, then compile it
 miracl:	${MIRACL_LIB_DIR}/miracl.a
@ -83,7 +86,7 @@ ${MIRACL_LIB_DIR}/miracl.a: ${SOURCES_MIRACL}
 # only clean example objects, test object and binaries
 clean:
-	rm -f ${OBJECTS_EXAMPLE} ${OBJECTS_TEST} *.exe ${OBJECTS_DHPSI} ${OBJECTS_OTPSI} ${OBJECTS_NAIVE} ${OBJECTS_SERVERAIDED} ${OBJECTS_UTIL} ${OBJECTS_CRYPTO} ${OBJECTS_OT}
+	rm -f ${OBJECTS_EXAMPLE} ${OBJECTS_TEST} *.exe ${OBJECTS_DHPSI} ${OBJECTS_OTPSI} ${OBJECTS_HASHING} ${OBJECTS_CRYPTO} ${OBJECTS_NAIVE} ${OBJECTS_SERVERAIDED} ${OBJECTS_UTIL} ${OBJECTS_CRYPTO} ${OBJECTS_OT}
 # this will clean everything: example objects, test object and binaries and the Miracl library
 cleanall: clean
--- a/sample_sets/emails_bob.txt
+++ b/sample_sets/emails_bob.txt
@ -1,7 +1,7 @@
 Michael.Zohner@ec-spride.de
 Wolfram.Hipp@yahoo.co.jp
 Carl.Zitzmann@facebook.com
 Tilmann.Wittke@neuf.fr
 Michael.Zohner@ec-spride.de
 Leila.Thiele@love.com
 Andres.Wölfle@o2.co.uk
 Semra.Kranz@live.com.ar
--- a/src/hashing/cuckoo.cpp
+++ b/src/hashing/cuckoo.cpp
@ -8,12 +8,21 @@
 #include "cuckoo.h"
 //returns a cuckoo hash table with the first dimension being the bins and the second dimension being the pointer to the elements
-uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_t bitlen, uint32_t *outbitlen, uint32_t* nelesinbin,
+#ifndef TEST_UTILIZATION
 uint8_t*
 #else
 uint32_t
 #endif
 cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_t bitlen, uint32_t *outbitlen, uint32_t* nelesinbin,
 		uint32_t* perm,	uint32_t ntasks, prf_state_ctx* prf_state)
 {
 	//The resulting hash table
 	uint8_t* hash_table;
 #ifdef DOUBLE_TABLE
 	cuckoo_entry_ctx*** cuckoo_table;
 #else
 	cuckoo_entry_ctx** cuckoo_table;
 #endif
 	cuckoo_entry_ctx* cuckoo_entries;
 	uint32_t i, j;
 	uint32_t *perm_ptr;
@ -28,12 +37,18 @@ uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint3
 	init_hashing_state(&hs, neles, bitlen, nbins, prf_state);
 	*outbitlen = hs.outbitlen;
-
+#ifdef DOUBLE_TABLE
 	cuckoo_table = (cuckoo_entry_ctx***) calloc(2, sizeof(cuckoo_entry_ctx**));
 	cuckoo_table[0] = (cuckoo_entry_ctx**) calloc(nbins, sizeof(cuckoo_entry_ctx*));
 	cuckoo_table[1] = (cuckoo_entry_ctx**) calloc(nbins, sizeof(cuckoo_entry_ctx*));
 #else
 	cuckoo_table = (cuckoo_entry_ctx**) calloc(nbins, sizeof(cuckoo_entry_ctx*));
 #endif
 	cuckoo_entries = (cuckoo_entry_ctx*) malloc(neles * sizeof(cuckoo_entry_ctx));
 	entry_gen_tasks = (pthread_t*) malloc(sizeof(pthread_t) * ntasks);
 	ctx = (cuckoo_entry_gen_ctx*) malloc(sizeof(cuckoo_entry_gen_ctx) * ntasks);
 #ifndef TEST_UTILIZATION
 	for(i = 0; i < ntasks; i++) {
 		ctx[i].elements = elements;
 		ctx[i].cuckoo_entries = cuckoo_entries;
@ -53,13 +68,20 @@ uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint3
 			exit(0);
 		}
 	}
-
+#else
 	ctx[0].elements = elements;
 	ctx[0].cuckoo_entries = cuckoo_entries;
 	ctx[0].hs = &hs;
 	ctx[0].startpos = 0;
 	ctx[0].endpos = neles;
 	gen_cuckoo_entries(ctx);
 #endif
 	//for(i = 0; i < nbins; i++) {
 	//	cout << "Address " << i << " mapped to " << hs.address_used[i] << " times" << endl;
 	//}
 	//insert all elements into the cuckoo hash table
 	for(i = 0; i < neles; i++) {
-		if(!(insert_element(cuckoo_table, cuckoo_entries + i))) {
+		if(!(insert_element(cuckoo_table, cuckoo_entries + i, neles))) {
 #ifdef COUNT_FAILS
 			fails++;
 			/*cout << "insertion failed for element " << (hex) << (*(((uint32_t*) elements)+i)) << ", inserting to address: ";
@ -68,19 +90,16 @@ uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint3
 			}
 			cout << (dec) << endl;*/
 #else
-			//cerr << "Insertion not successful for element " <<i <<"!" << endl;
+			cerr << "Insertion not successful for element " <<i <<"!" << endl;
-			//exit(0);
+			exit(0);
 #endif
 		}
 	}
 #ifdef COUNT_FAILS
 	if(fails > 0)
 		cout << "insertion performed with " << fails << " fails" << endl;
 #endif
 	//Copy the final state of the cuckoo table into the hash table
 	perm_ptr = perm;
 #ifndef TEST_UTILIZATION
 	hash_table = (uint8_t*) calloc(nbins, hs.outbytelen);
 	for(i = 0; i < nbins; i++) {
@ -96,22 +115,32 @@ uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint3
 		}
 	}
-	//Cleanup
+#endif
 #ifndef TEST_UTILIZATION
 	//Cleanup
 	for(i = 0; i < neles; i++) {
-		//for(j = 0; j < NUM_HASH_FUNCTIONS; j++) {
+		free(cuckoo_entries[i].val);
 			free(cuckoo_entries[i].val);
 		//}
 	}
 #endif
 	free(cuckoo_entries);
 #ifdef DOUBLE_TABLE
 	free(cuckoo_table[0]);
 	free(cuckoo_table[1]);
 #else
 	free(cuckoo_table);
 #endif
 	free(entry_gen_tasks);
 	free(ctx);
 	free_hashing_state(&hs);
 #ifdef TEST_UTILIZATION
 	return fails;
 #else
 	return hash_table;
 #endif
 }
@ -135,15 +164,17 @@ inline void gen_cuckoo_entry(uint8_t* in, cuckoo_entry_ctx* out, hs_t* hs, uint3
 	out->pos = 0;
 	out->eleid = ele_id;
 	//for(i = 0; i < NUM_HASH_FUNCTIONS; i++) {
 #ifndef TEST_UTILIZATION
 		out->val = (uint8_t*) malloc(hs->outbytelen);
 #endif
-		hashElement(in, out->address, out->val, hs);
+	hashElement(in, out->address, out->val, hs);
 	//}
 }
-inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element) {
+#ifdef DOUBLE_TABLE
 inline bool insert_element(cuckoo_entry_ctx*** ctable, cuckoo_entry_ctx* element, uint32_t max_iterations) {
 #else
 inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element, uint32_t max_iterations) {
 #endif
 	cuckoo_entry_ctx *evicted, *tmp_evicted;
 	uint32_t i, ev_pos, iter_cnt;
 #ifdef DEBUG_CUCKOO
@ -151,21 +182,40 @@ inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element)
 			<< element->address[element->pos] << " or " << element->address[element->pos^1] << endl;
 #endif
-	for(iter_cnt = 0, evicted = element; iter_cnt < MAX_ITERATIONS; iter_cnt++) {
+	for(iter_cnt = 0, evicted = element; iter_cnt < max_iterations; iter_cnt++) {
 		//TODO: assert(addr < MAX_TAB_ENTRIES)
 		for(i = 0; i < NUM_HASH_FUNCTIONS; i++) {//, ele_pos=(ele_pos+1)%NUM_HASH_FUNCTIONS) {
-			if(ctable[evicted->address[i]] == NULL) {
+#ifdef DOUBLE_TABLE
-				ctable[evicted->address[i]] = evicted;
+			if(ctable[i][evicted->address[i]] == NULL) {
 				ctable[i][evicted->address[i]] = evicted;
 				evicted->pos = i;
 				return true;
 			}
 #else
 			if(ctable[evicted->address[i]] == NULL) {
 				ctable[evicted->address[i]] = evicted;
 				evicted->pos = i;
 #ifdef TEST_CHAINLEN
 				chain_cnt[iter_cnt]++;
 #endif
 				return true;
 			}
 #endif
 		}
 		//choose random bin to evict other element
 #if NUM_HASH_FUNCTIONS == 2
 		ev_pos = evicted->address[evicted->pos% NUM_HASH_FUNCTIONS];
 #else
 		ev_pos = evicted->address[(evicted->pos^iter_cnt) % NUM_HASH_FUNCTIONS];
-
+#endif
 #ifdef DOUBLE_TABLE
 		tmp_evicted = ctable[evicted->pos][ev_pos];
 		ctable[evicted->pos][ev_pos] = evicted;
 #else
 		tmp_evicted = ctable[ev_pos];
 		ctable[ev_pos] = evicted;
 #endif
 		evicted = tmp_evicted;
 		//change position - if the number of HF's is increased beyond 2 this should be replaced by a different strategy
@ -175,3 +225,13 @@ inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element)
 	//the highest number of iterations has been reached
 	return false;
 }
 #ifdef TEST_CHAINLEN
 void print_chain_cnt() {
 	//cout << "Chain Count: " << endl;
 	for(uint32_t i = 0; i < MAX_ITERATIONS; i++) {
 		//if(chain_cnt[i] > 0)
 			cout << i << "\t" << chain_cnt[i] << endl;
 	}
 }
 #endif
--- a/src/hashing/cuckoo.h
+++ b/src/hashing/cuckoo.h
@ -10,10 +10,18 @@
 #include "hashing_util.h"
-#define MAX_ITERATIONS 1000
+#define MAX_ITERATIONS 1024
 //#define DEBUG_CUCKOO
-//#define COUNT_FAILS
+#ifdef TEST_UTILIZATION
 #define COUNT_FAILS
 #endif
 //#define DOUBLE_TABLE
 //#define TEST_CHAINLEN
 #ifdef TEST_CHAINLEN
 static uint64_t chain_cnt[MAX_ITERATIONS];
 void print_chain_cnt();
 #endif
 struct cuckoo_entry_ctx {
 	//id of the element in the source set
@ -30,6 +38,7 @@ struct cuckoo_entry_ctx {
 };
 struct cuckoo_entry_gen_ctx {
 	//starting position in the generation process
 	uint32_t startpos;
@ -48,12 +57,21 @@ struct cuckoo_entry_gen_ctx {
 //returns a cuckoo hash table with the first dimension being the bins and the second dimension being the pointer to the elements
-uint8_t* cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_t bitlen, uint32_t* outbitlen, uint32_t* nelesinbin,
+#ifndef TEST_UTILIZATION
 uint8_t*
 #else
 uint32_t
 #endif
 cuckoo_hashing(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_t bitlen, uint32_t* outbitlen, uint32_t* nelesinbin,
 		uint32_t* perm,	uint32_t ntasks, prf_state_ctx* prf_state);
 //routine for generating the entries, is invoked by the threads
 void *gen_cuckoo_entries(void *ctx);
 inline void gen_cuckoo_entry(uint8_t* in, cuckoo_entry_ctx* out, hs_t* hs, uint32_t ele_id);
-inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element);
+#ifdef DOUBLE_TABLE
 inline bool insert_element(cuckoo_entry_ctx*** ctable, cuckoo_entry_ctx* element, uint32_t max_iterations);
 #else
 inline bool insert_element(cuckoo_entry_ctx** ctable, cuckoo_entry_ctx* element, uint32_t max_iterations);
 #endif
--- a/src/hashing/hashing_util.h
+++ b/src/hashing/hashing_util.h
@ -13,13 +13,14 @@
 typedef uint16_t TABLEID_T;
-#define NUM_HASH_FUNCTIONS 2
+//#define TEST_UTILIZATION
 //#define NUM_HASH_FUNCTIONS 2
 #define NUM_HASH_FUNCTIONS 3
 #define MAX_TABLE_SIZE_BYTES sizeof(TABLEID_T)
 #define DUMMY_ENTRY_SERVER 0x00
 #define DUMMY_ENTRY_CLIENT 0xFF
 #define USE_LUBY_RACKOFF
 //#define TEST_UTILIZATION
 typedef struct hashing_state_ctx {
 	uint32_t** hf_values[NUM_HASH_FUNCTIONS];
@ -103,9 +104,15 @@ static void init_hashing_state(hs_t* hs, uint32_t nelements, uint32_t inbitlen,
 }
 static void free_hashing_state(hs_t* hs) {
-	uint32_t i;
+	uint32_t i, j;
-	for(i = 0; i < NUM_HASH_FUNCTIONS; i++)
+	for(i = 0; i < NUM_HASH_FUNCTIONS; i++) {
 		for(j = 0; j  < hs->nhfvals; j++) {
 			free(hs->hf_values[i][j]);
 		}
 		free(hs->hf_values[i]);
 	}
 	free(hs->address_used);
 	//free(hs->hf_values);
 }
 //reduce the bit-length of the elements if some bits are used to determine the bin and a permutation is used for hashing
@ -151,17 +158,19 @@ inline void hashElement(uint8_t* element, uint32_t* address, uint8_t* val, hs_t*
 			//cout << "i = " << i << ", j = " << j << ", Hfmaskaddr = " << hfmaskaddr << endl;
 			//cout << "Hfvalue: " << hs->hf_values[i][j][hfmaskaddr] << endl;
 			address[i] = (L ^ *((hs->hf_values[i][j]+hfmaskaddr))) % hs->nbins;
 			//address[i] = (L ^ (i * R)) % hs->nbins;
 		}
 		//cout << address[i] << ", ";
 		//hs->address_used[address[i]]++;
 	}
 	//cout << endl;
 #ifndef TEST_UTILIZATION
 	*((uint32_t*) val)  = R;
 	//TODO copy remaining bits
 	if(hs->outbytelen >= sizeof(uint32_t))
 		memcpy(val + (sizeof(uint32_t) - hs->addrbytelen), element + sizeof(uint32_t), hs->outbytelen - sizeof(uint32_t));
-
+#endif
 	//cout << "Address for hfid = " << hfid << ": " << *address << ", L = " << L << ", R = " << R << endl;
 #else
--- a/src/ot-based/ot-psi.cpp
+++ b/src/ot-based/ot-psi.cpp
@ -7,80 +7,6 @@
 #include "ot-psi.h"
 /*int32_t main(int32_t argc, char** argv) {
 	uint32_t pid, nelements=10, elebytelen=4, symsecbits=80,
 			intersect_size, i, ntasks=1, runs=1, j;
 	int32_t nargs=8;
 	uint8_t *elements, *intersection;
 	const char* address;
 	uint16_t port;
 	timeval begin, end;
 	//CSocket* sockfd = (CSocket*) malloc(sizeof(CSocket) * ntasks);
 	vector<CSocket> sockfd(ntasks);
 	role_type role = (role_type) 0;
 	double epsilon=1.2;
 	if(argc < nargs) {
 		print_ot_psi_usage();
 	}
 	pid = atoi(argv[1]);
 	nelements = atoi(argv[2]);
 	elebytelen = atoi(argv[3]);
 	symsecbits = atoi(argv[4]);
 	address = argv[5];
 	port = (uint16_t) atoi(argv[6]);
 	epsilon = atof(argv[7]);
 	ntasks=atoi(argv[8]);
 	if(pid == 0) {
 		role = SERVER;
 		listen(address, port, sockfd.data(), ntasks);
 	} else {
 		role = CLIENT;
 		for(i = 0; i < ntasks; i++)
 			connect(address, port, sockfd[i]);
 	}
 	crypto crypto(symsecbits);//, const_ot_psi_seed);
 	elements = (uint8_t*) calloc(nelements * elebytelen, sizeof(uint8_t));
 #ifdef SET_INPUT_ELEMENTS
 	for(i = 0; i < nelements; i++) {
 		//for(j = 0; j < elebytelen; j++)
 			elements[i*elebytelen] = i;
 	}
 #endif
 #ifdef PRINT_INPUT_ELEMENTS
 	for(i = 0; i < nelements; i++) {
 		cout << "Element " << i << ": " << (hex);
 		for(j = 0; j < elebytelen; j++)
 			cout << (unsigned int) elements[i*elebytelen + j];
 		cout << (dec) << endl;
 	}
 #endif
 	gettimeofday(&begin, NULL);
 	for(i = 0; i < runs; i++) {
 		crypto.gen_rnd(elements, elebytelen * nelements);
 		intersect_size = otpsi(nelements, elebytelen*8, elements, &intersection, &crypto, sockfd.data(), role, ntasks, epsilon);
 	}
 	gettimeofday(&end, NULL);
 	cout << "Computing the intersection took " << getMillies(begin, end) << " ms" << endl;
 #ifdef PRINT_INTERSECTION
 	cout << "Intersecting elements" << endl;
 	for(i = 0; i < intersect_size; i++) {
 		for(j = 0; j < elebytelen; j++) {
 			cout << (hex) << (uint32_t) intersection[i * elebytelen + j] << (dec);
 		}
 		cout << endl;
 	}
 #endif
 	return 0;
 }*/
 uint32_t otpsi(role_type role, uint32_t neles, uint32_t pneles, uint32_t* elebytelens, uint8_t** elements,
 		uint8_t*** result, uint32_t** res_bytelen, crypto* crypt_env, CSocket* sock,  uint32_t ntasks, double epsilon,
@ -126,15 +52,16 @@ uint32_t otpsi(role_type role, uint32_t neles, uint32_t pneles, uint32_t* elebyt
 		intersect_size = otpsi_client(eleptr, neles, nbins, pneles, internal_bitlen, maskbitlen, crypt_env,
 				sock, ntasks, &prf_state, &res_pos);
-		std::sort(res_pos, res_pos+intersect_size);
+		//std::sort(res_pos, res_pos+intersect_size);
-		*result = (uint8_t**) malloc(intersect_size * sizeof(uint8_t*));
+		//*result = (uint8_t**) malloc(intersect_size * sizeof(uint8_t*));
-		*res_bytelen = (uint32_t*) malloc(intersect_size * sizeof(uint32_t));
+		//*res_bytelen = (uint32_t*) malloc(intersect_size * sizeof(uint32_t));
-		for(i = 0; i < intersect_size; i++) {
+		/*for(i = 0; i < intersect_size; i++) {
 			(*res_bytelen)[i] = elebytelens[res_pos[i]];
 			(*result)[i] = (uint8_t*) malloc((*res_bytelen)[i]);
 			memcpy((*result)[i], elements[res_pos[i]], (*res_bytelen)[i]);
-		}
+		}*/
 		create_result_from_matches_var_bitlen(result, res_bytelen, elebytelens, elements, res_pos, intersect_size);
 	}
 	free(eleptr);
@ -173,7 +100,6 @@ uint32_t otpsi(role_type role, uint32_t neles, uint32_t pneles, uint32_t elebitl
 		internal_bitlen = elebitlen;
 	}
 	crypt_env->gen_common_seed(&prf_state, sock[0]);
 	if(role == SERVER) {
@ -223,8 +149,14 @@ uint32_t otpsi_client(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_start, NULL);
 	}
 #ifndef TEST_UTILIZATION
 	hash_table = cuckoo_hashing(elements, neles, nbins, elebitlen, &outbitlen,
 			nelesinbin, perm, ntasks, prf_state);
 #else
 	cerr << "Test utilization is active, PSI protocol will not be working correctly!" << endl;
 	cuckoo_hashing(elements, neles, nbins, elebitlen, &outbitlen,
 				nelesinbin, perm, ntasks, prf_state);
 #endif
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_end, NULL);
 		cout << "Time for Cuckoo hashing:\t" << fixed << std::setprecision(2) <<
@ -238,6 +170,7 @@ uint32_t otpsi_client(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_
 	gettimeofday(&t_start, NULL);
 #endif
 #ifdef PRINT_BIN_CONTENT
 	cout << "Client bin content: " << endl;
 	print_bin_content(hash_table, nbins, ceil_divide(outbitlen, 8), NULL, false);
 #endif
@ -248,12 +181,22 @@ uint32_t otpsi_client(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_start, NULL);
 	}
 	/*uint64_t tmpmask = 0;
 	for(uint32_t i = 0; i < neles-1; i++) {
 		memcpy((uint8_t*) &tmpmask, masks + i*maskbytelen, maskbytelen);
 		cout << "Mask " << i << " : " << (hex) <<  tmpmask << (dec) << endl; //"intersection found at position " << tmpval[0] << " for key " << tmpbuf[0] << endl;
 	}*/
 #ifdef TIMING
 	gettimeofday(&t_end, NULL);
 	cout << "Client: time for OPRG evaluation: " << getMillies(t_start, t_end) << " ms" << endl;
 	gettimeofday(&t_start, NULL);
 #endif
 /*#ifdef PRINT_BIN_CONTENT
 	cout << "Client masks: " << endl;
 	print_bin_content(masks, neles, maskbytelen, NULL, false);
 #endif*/
 	//receive server masks
 	server_masks = (uint8_t*) malloc(NUM_HASH_FUNCTIONS * pneles * maskbytelen);
@ -289,7 +232,7 @@ uint32_t otpsi_client(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_
 #endif
 #ifdef PRINT_RECEIVED_VALUES
 	cout << "Received server masks: " << endl;
-	print_bin_content(server_masks, NUM_HASH_FUNCTIONS*neles, maskbytelen, NULL, false);
+	print_bin_content(server_masks, NUM_HASH_FUNCTIONS*pneles, maskbytelen, NULL, false);
 #endif
 	//query hash table using multiple threads
@ -315,7 +258,7 @@ uint32_t otpsi_client(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_
 	//compute intersection
 	intersect_size = otpsi_find_intersection(result, masks, neles, server_masks,
-			neles * NUM_HASH_FUNCTIONS, maskbytelen, perm);
+			pneles * NUM_HASH_FUNCTIONS, maskbytelen, perm);
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_end, NULL);
@ -397,19 +340,6 @@ void otpsi_server(uint8_t* elements, uint32_t neles, uint32_t nbins, uint32_t pn
 	free(nelesinbin);
 }
 void print_ot_psi_usage() {
 	cout << "Usage: ./otpsi [0 (server)/1 (client)] [num_elements] [element_byte_length] "
 			<< "[sym_security_bits] [server_ip] [server_port] [CH_epsilon] [nthreads]" << endl;
 	cout << "Program exiting" << endl;
 	exit(0);
 }
 void oprg_client(uint8_t* hash_table, uint32_t nbins, uint32_t neles, uint32_t* nelesinbin, uint32_t elebitlen,
 		uint32_t maskbitlen, crypto* crypt,	CSocket* sock, uint32_t nthreads, uint8_t* res_buf) {
 	CBitVector choices;
@ -477,10 +407,16 @@ void oprg_client(uint8_t* hash_table, uint32_t nbins, uint32_t neles, uint32_t*
 #ifdef PRINT_OPRG_MASKS
 	for(i = 0, ctr=0; i < nbins; i++) {
 		if(nelesinbin[i] > 0) {
-			cout << "Result for element i = " << i << " and choice = " << (hex) <<
+			cout << "Result for element i = " << i << " and choice = ";// << (hex) <<
-					choices.Get<uint64_t>(i * OTsPerElement*8, OTsPerElement*8) << (dec) << ": ";
+			for(uint32_t j = 0; j < OTsPerElement; j++) {
 				//cout << (hex) << (uint32_t) hash_table[j + i * OTsPerElement] << (dec);
 				cout << setw(2) << setfill('0') << (hex) << (uint32_t) choices.GetByte(j + i * OTsPerElement) << (dec);
 			}
 			cout << ": ";
 			//choices.Get<uint64_t>(i * OTsPerElement*8, OTsPerElement*8) << (dec) << ": ";
 			for(uint32_t j  = 0; j < maskbytelen; j++) {
-				cout << (hex) << (uint32_t) res_buf[ctr * maskbytelen + j] << (dec);
+				cout << setw(2) << setfill('0') << (hex) << (uint32_t) res_buf[ctr * maskbytelen + j] << (dec);
 			}
 			cout << endl;
 			ctr++;
@ -493,6 +429,19 @@ void oprg_client(uint8_t* hash_table, uint32_t nbins, uint32_t neles, uint32_t*
 	evaluate_crf(res_buf, res_buf, neles, maskbytelen, crypt);
 #ifdef PRINT_CRF_EVAL
 	for(i = 0, ctr=0; i < nbins; i++) {
 		if(nelesinbin[i] > 0) {
 			cout << "CRF Result for element i = " << i << ": ";
 			for(uint32_t j  = 0; j < maskbytelen; j++) {
 				cout << setw(2) << setfill('0') << (hex) << (uint32_t) res_buf[ctr * maskbytelen + j] << (dec);
 			}
 			cout << endl;
 			ctr++;
 		}
 	}
 #endif
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_end, NULL);
 		cout << "Time for CRF evaluation:\t" << fixed << std::setprecision(2) <<
@ -510,14 +459,14 @@ void oprg_server(uint8_t* hash_table, uint32_t nbins, uint32_t totaleles, uint32
 	CBitVector input, results;
 	CBitVector baseOTchoices;
 	uint8_t* keySeeds;
-	uint32_t numOTs, OTsPerElement, i, maskbytelen;
+	uint32_t numOTs, OTsPerBin, i, maskbytelen;
 	OTExtension1ooNECCSender* sender;
 	timeval t_start, t_end;
 	maskbytelen = maskbitlen / 8;
-	OTsPerElement = ceil_divide(elebitlen, 8);
+	OTsPerBin = ceil_divide(elebitlen, 8);
-	numOTs = nbins * OTsPerElement;
+	numOTs = nbins * OTsPerBin;
 #ifndef BATCH
 	cout << "Server: bins = " << nbins << ", elebitlen = " << elebitlen << " and maskbitlen = " <<
@ -570,9 +519,13 @@ void oprg_server(uint8_t* hash_table, uint32_t nbins, uint32_t totaleles, uint32
 #ifdef PRINT_OPRG_MASKS
 	for(i = 0; i < totaleles; i++) {
-		cout << "Result for element i = " << i << ": ";
+		cout << "Result for element i = " << i << " ";
 		for(uint32_t j  = 0; j < OTsPerBin; j++) {
 			cout << setw(2) << setfill('0') << (hex) << (uint32_t) hash_table[i * OTsPerBin + j] << (dec);
 		}
 		cout << ": ";
 		for(uint32_t j  = 0; j < maskbytelen; j++) {
-			cout << (hex) << (uint32_t) res_buf[i * maskbytelen + j] << (dec);
+			cout << setw(2) << setfill('0') << (hex) << (uint32_t) res_buf[i * maskbytelen + j] << (dec);
 		}
 		cout << endl;
 	}
@ -583,6 +536,16 @@ void oprg_server(uint8_t* hash_table, uint32_t nbins, uint32_t totaleles, uint32
 	//evaluate correlation robust function on the elements
 	evaluate_crf(res_buf, res_buf, totaleles, maskbytelen, crypt);
 #ifdef PRINT_CRF_EVAL
 	for(i = 0; i < totaleles; i++) {
 		cout << "Result for element i = " << i << ": ";
 		for(uint32_t j  = 0; j < maskbytelen; j++) {
 			cout << setw(2) << setfill('0') << (hex) << (uint32_t) res_buf[i * maskbytelen + j] << (dec);
 		}
 		cout << endl;
 	}
 #endif
 	if(DETAILED_TIMINGS) {
 		gettimeofday(&t_end, NULL);
 		cout << "Time for CRF evaluation:\t" << fixed << std::setprecision(2) <<
@ -732,11 +695,16 @@ void *otpsi_query_hash_table(void* ctx_tmp) {//GHashTable *map, uint8_t* element
 //TODO if this works correctly, combine with other find intersection methods and outsource to hashing_util.h
 uint32_t otpsi_find_intersection(uint32_t** result, uint8_t* my_hashes,
 		uint32_t my_neles, uint8_t* pa_hashes, uint32_t pa_neles, uint32_t hashbytelen, uint32_t* perm) {
 	uint32_t keys_stored;
 	uint32_t* matches = (uint32_t*) malloc(sizeof(uint32_t) * my_neles);
 	uint32_t* tmpval;
 	uint64_t tmpbuf;
 	uint32_t* tmpkeys;
 	uint32_t* invperm = (uint32_t*) malloc(sizeof(uint32_t) * my_neles);
 	for(uint32_t i = 0; i < my_neles; i++)
 		invperm[perm[i]] = i;
 	uint32_t size_intersect, i, intersect_ctr, tmp_hashbytelen;
@ -782,6 +750,7 @@ uint32_t otpsi_find_intersection(uint32_t** result, uint8_t* my_hashes,
 				}
 			} else {
 				matches[intersect_ctr] = tmpval[0];
 				//cout << "intersection found at position " << tmpval[0] << " for key " << (hex) << tmpbuf << (dec) << endl;
 				if(intersect_ctr<my_neles)
 					intersect_ctr++;
 				//cout << "Match found at " << tmpval[0] << " for i = " << i << endl;
@ -807,6 +776,7 @@ uint32_t otpsi_find_intersection(uint32_t** result, uint8_t* my_hashes,
 	free(matches);
 	free(map);
 	free(invperm);
 	return size_intersect;
 }
@ -815,9 +785,7 @@ void evaluate_crf(uint8_t* result, uint8_t* masks, uint32_t nelements, uint32_t
 	AES_KEY_CTX aes_key;
 	crypt->init_aes_key(&aes_key, 128, (uint8_t*) const_seed);
 	for(i = 0; i < nelements; i++) {
 		//cout << "Input: " << ((uint64_t*)masks)[0] << endl;
 		crypt->fixed_key_aes_hash(&aes_key, result+i*elebytelen, elebytelen, masks+i*elebytelen, elebytelen);
 		//cout << "Input: " << ((uint64_t*)masks)[0] << endl;
 	}
 }
@ -830,7 +798,7 @@ void print_bin_content(uint8_t* hash_table, uint32_t nbins, uint32_t elebytelen,
 			cout << "(" << nelesinbin[i] << ") Bin " << i << ": ";
 			for(j = 0; j < nelesinbin[i]; j++) {
 				for(k = 0; k < elebytelen; k++, ctr++) {
-					cout << (hex) << (unsigned int) hash_table[ctr] << (dec);
+					cout << setw(2) << setfill('0') << (hex) << (unsigned int) hash_table[ctr] << (dec);
 				}
 				cout << " ";
 			}
@ -840,7 +808,7 @@ void print_bin_content(uint8_t* hash_table, uint32_t nbins, uint32_t elebytelen,
 		for(i = 0, ctr = 0; i < nbins; i++) {
 			cout << "Bin " << i << ": ";
 			for(k = 0; k < elebytelen; k++, ctr++) {
-				cout << (hex) << (unsigned int) hash_table[ctr] << (dec);
+				cout << setw(2) << setfill('0') << (hex) << (unsigned int) hash_table[ctr] << (dec);
 			}
 			cout << endl;
 		}
--- a/src/ot-based/ot-psi.h
+++ b/src/ot-based/ot-psi.h
@ -20,6 +20,7 @@
 #include "../util/ot/opemasking.h"
 #include <algorithm>
 #include <glib.h>
 #include "../util/helpers.h"
 static bool DETAILED_TIMINGS=0;
@ -27,6 +28,7 @@ static bool DETAILED_TIMINGS=0;
 //#define PRINT_BIN_CONTENT
 //#define PRINT_OPRG_MASKS
 //#define PRINT_RECEIVED_VALUES
 //#define PRINT_CRF_EVAL
 struct mask_rcv_ctx {
 	uint8_t* rcv_buf;
@ -76,8 +78,6 @@ void *receive_masks(void *ctx_tmp);
 void InitOTReceiver(uint8_t* keyMtx, CSocket sock, crypto* crypt);
 void InitOTSender(uint8_t* keySeeds, CBitVector& choices, CSocket sock, crypto* crypt);
 void print_ot_psi_usage();
 GHashTable* otpsi_create_hash_table(uint32_t elebytelen, uint8_t* hashes, uint32_t neles, uint32_t
 		hashbytelen, uint32_t* perm);
 void *otpsi_query_hash_table(void* ctx_tmp);
--- a/src/util/crypto/crypto.cpp
+++ b/src/util/crypto/crypto.cpp
@ -110,7 +110,7 @@ void crypto::gen_rnd(uint8_t* resbuf, uint32_t nbytes) {
 	free(tmpbuf);*/
 }
-void crypto::gen_rnd_uniform(uint8_t* resbuf, uint64_t mod) {
+void crypto::gen_rnd_uniform(uint8_t* res, uint64_t mod) {
 	//pad to multiple of 4 bytes for uint32_t length
 	uint32_t nrndbytes = pad_to_multiple(ceil_divide(secparam.symbits, 8) + ceil_log2(mod), sizeof(uint32_t));
 	uint64_t bitsint = (8*sizeof(uint32_t));
@ -215,7 +215,7 @@ void crypto::hash_ctr(uint8_t* resbuf, uint32_t noutbytes, uint8_t* inbuf, uint3
 	uint8_t* tmpbuf = (uint8_t*) malloc(ninbytes + sizeof(uint32_t));
 	memcpy(tmpbuf, &ctr, sizeof(uint32_t));
 	memcpy(tmpbuf + sizeof(uint32_t), inbuf, ninbytes);
-	hash_routine(resbuf, noutbytes, inbuf, ninbytes, sha_hash_buf);
+	hash_routine(resbuf, noutbytes, tmpbuf, ninbytes+sizeof(uint32_t), sha_hash_buf);
 	free(tmpbuf);
 }
--- a/src/util/crypto/crypto.h
+++ b/src/util/crypto/crypto.h
@ -88,11 +88,12 @@ public:
 	uint32_t get_hash_bytes();
 	void gen_common_seed(prf_state_ctx* aes_key, CSocket& sock);
 	void init_prf_state(prf_state_ctx* prf_state, uint8_t* seed);
 private:
 	void seed_aes_key(AES_KEY_CTX* aeskey, uint8_t* seed, bc_mode mode=ECB, const uint8_t* iv=ZERO_IV, bool encrypt=true);
 	void seed_aes_key(AES_KEY_CTX* aeskey, uint32_t symseclvl, uint8_t* seed, bc_mode mode=ECB, const uint8_t* iv=ZERO_IV, bool encrypt=true);
 	void init(uint32_t symsecbits, uint8_t* seed);
 	void init_prf_state(prf_state_ctx* prf_state, uint8_t* seed);
 	void free_prf_state(prf_state_ctx* prf_state);
 	AES_KEY_CTX aes_hash_key;
--- a/src/util/ot/opemasking.h
+++ b/src/util/ot/opemasking.h
@ -31,15 +31,16 @@ public:
 		assert(nbins > 0);
 		m_vStartingPosForBin[0] = 0;
 		m_nExpansionFactor = 1;
 		if(m_vNumEleInBin[0] > m_nCodeWordBits) {
 			m_nExpansionFactor = m_nCodeWordBits;
 		}
 		for(uint32_t i = 1; i < nbins; i++) {
 			m_vStartingPosForBin[i] = m_vStartingPosForBin[i-1] + m_vNumEleInBin[i-1];
 			if(m_vNumEleInBin[i] > m_nCodeWordBits) {
 				m_nExpansionFactor = m_nCodeWordBits;
 			}
 		}
-		if(m_vNumEleInBin[0] > m_nCodeWordBits) {
+
 			m_nExpansionFactor = m_nCodeWordBits;
 		}
 	};
 	//Constructor that is called by the client
@ -78,11 +79,13 @@ public:
 	//Expansion routine for the server
 	void ServerExpand(CBitVector& matrix, uint8_t* uptr, uint32_t ot_begin_id, uint32_t processedOTs) {
 		uint64_t ot_id, bin_id, bit_id, u, binoffset;
 		uint32_t hashinbytes = m_nCodeWordBytes + sizeof(uint64_t);
 		uint8_t *Mptr = matrix.GetArr();
 		CBitVector mask(m_nCodeWordBits * m_nExpansionFactor);
 		uint8_t* hash_buf = (uint8_t*) malloc(m_nCodeWordBytes * m_nExpansionFactor);
-		uint8_t* mask_ptr = mask.GetArr();
+		uint8_t* mask_ptr;
 		uint8_t* hash_ptr;
 		uint8_t* tmpbuf = (uint8_t*) malloc(hashinbytes);
 		//m_vServerChoices.PrintHex();
 		for(ot_id = ot_begin_id; ot_id < ot_begin_id+processedOTs; ot_id++, Mptr+=m_nCodeWordBytes)
@ -92,6 +95,8 @@ public:
 			binoffset = m_vStartingPosForBin[bin_id] * m_nOTsPerElement;
 			mask_ptr = mask.GetArr();
 			if(m_vNumEleInBin[bin_id] < m_nCodeWordBits) {
 				//cout << "Choice for ot_id = " << ot_id << ": ";
 				for(u = 0; u < m_vNumEleInBin[bin_id]; u++)
@ -111,7 +116,10 @@ public:
 					((uint64_t*) mask_ptr)[0] ^= ot_id;
 					m_cCrypto->aes_compression_hash(m_kCRFKey, hash_buf, mask_ptr, m_nCodeWordBytes);
 	#else
-					m_cCrypto->hash_ctr(hash_buf, AES_BYTES, mask_ptr, m_nCodeWordBytes, ot_id);
+					memcpy(tmpbuf, (uint8_t*) &ot_id, sizeof(uint64_t));
 					memcpy(tmpbuf+sizeof(uint64_t), mask_ptr, m_nCodeWordBytes);
 					m_cCrypto->hash(hash_buf, AES_BYTES, tmpbuf, hashinbytes);
 					//m_cCrypto->hash_ctr(hash_buf, AES_BYTES, mask_ptr, m_nCodeWordBytes, ot_id);
 	#endif
 				//	cout << "MaskBitLen: " << m_nMaskBitLen << ", results size = " << m_vResults[bin_id].GetSize() <<  endl;
 					//cout << "(" << (hex) << ((uint64_t*) hash_buf)[0] << ") " << (dec);
@ -137,7 +145,16 @@ public:
 					((uint32_t*) mask_ptr)[0] ^= ot_id;
 					m_cCrypto->aes_compression_hash(m_kCRFKey, hash_ptr, mask_ptr, m_nCodeWordBytes);
 #else
-					m_cCrypto->hash_ctr(hash_buf, AES_BYTES, mask_ptr, m_nCodeWordBytes, ot_id);
+					memcpy(tmpbuf, (uint8_t*) &ot_id, sizeof(uint64_t));
 					memcpy(tmpbuf+sizeof(uint64_t), mask_ptr, m_nCodeWordBytes);
 					m_cCrypto->hash(hash_ptr, AES_BYTES, tmpbuf, hashinbytes);
 					//m_cCrypto->hash_ctr(hash_ptr, AES_BYTES, mask_ptr, m_nCodeWordBytes, ot_id);
 #endif
 #ifdef DEBUG_HASH_OUTPUT
 					cout  << "hash output for ot_id = " << ot_id << " and element_id = " << u << ": ";
 					for(uint32_t j = 0; j < AES_BYTES; j++)
 						cout << (hex) << (unsigned int) hash_buf[j];
 					cout << (dec) << endl;
 #endif
 				}
 				uint64_t mask_id;
@ -151,14 +168,17 @@ public:
 		}
 		mask.delCBitVector();
 		free(hash_buf);
 		free(tmpbuf);
 	}
 	//Expansion routine for the client
 	void ClientExpand(CBitVector& matrix, uint32_t ot_begin_id, uint32_t processedOTs) {
 		//uint8_t hash_buf[m_cCrypto->get_hash_bytes()];
 		uint64_t ot_id, bin_id;
 		uint32_t hashinbytes = m_nCodeWordBytes + sizeof(uint64_t);
 		uint8_t *Mptr = matrix.GetArr();
 		uint8_t* hash_buf = (uint8_t*) malloc(m_nCodeWordBytes);
 		uint8_t* tmpbuf = (uint8_t*) malloc(hashinbytes);
 		for(ot_id = ot_begin_id; ot_id < ot_begin_id+processedOTs; ot_id++, Mptr+=m_nCodeWordBytes)
 		{
@ -176,7 +196,10 @@ public:
 				((uint64_t*) Mptr)[0] ^= ot_id;
 				m_cCrypto->aes_compression_hash(m_kCRFKey, hash_buf, Mptr, m_nCodeWordBytes);
 #else
-				m_cCrypto->hash_ctr(hash_buf, AES_BYTES, Mptr, m_nCodeWordBytes, ot_id);
+				memcpy(tmpbuf, (uint8_t*) &ot_id, sizeof(uint64_t));
 				memcpy(tmpbuf+sizeof(uint64_t), Mptr, m_nCodeWordBytes);
 				m_cCrypto->hash(hash_buf, AES_BYTES, tmpbuf, hashinbytes);
 				//m_cCrypto->hash_ctr(hash_buf, AES_BYTES, Mptr, m_nCodeWordBytes, ot_id);
 #endif
 			//	cout << "Client expanding for bin_id : " << bin_id << endl;
@ -187,12 +210,13 @@ public:
 #ifdef DEBUG_HASH_OUTPUT
 				cout << "hash output for ot_id = " << ot_id << ": ";
 				for(uint32_t j = 0; j < AES_BYTES; j++)
-					cout << (hex) << (unsigned int) hash_buf[j];
+					cout << (hex) << (uint32_t) hash_buf[j];
-				cout << (dec) << endl;
+				cout << (dec) << ", " << (ot_begin_id) << ", " << processedOTs << ", " << m_nCodeWordBytes << ", " << (uint64_t) Mptr << endl;
 #endif
 			}
 		}
 		free(hash_buf);
 		free(tmpbuf);
 	}
 	//the out vector contains the matrix with the data that needs to be hashed, uptr is a pointer to the choice-bits of the server in the base-OTs