test/test_mpinfull_tp_ZZZ.c.in - incubator-milagro-crypto-c - Git at Google

 /**
  * @file test_mpinfull_time_permits_ZZZ.c
  * @author Kealan McCusker
  * @brief Test M-pin Full
  *
  * LICENSE
  *
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  */

 /* Test M-Pin Full */

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <time.h>
 #include "config_curve_ZZZ.h"
 #include "pbc_support.h"
 #include "randapi.h"
 #if CURVE_SECURITY_ZZZ == 128
 #include "mpin_ZZZ.h"
 #elif CURVE_SECURITY_ZZZ == 192
 #include "mpin192_ZZZ.h"
 #elif CURVE_SECURITY_ZZZ == 256
 #include "mpin256_ZZZ.h"
 #endif

 #if CURVE_SECURITY_ZZZ == 128
 #define G2LEN 4*PFS_ZZZ
 #elif CURVE_SECURITY_ZZZ == 192
 #define G2LEN 8*PFS_ZZZ
 #elif CURVE_SECURITY_ZZZ == 256
 #define G2LEN 16*PFS_ZZZ
 #endif
 #define GTLEN 3*G2LEN

 // #define DEBUG

 int main()
 {
     int i,PIN1,PIN2,rtn;

     char id[256];
     octet ID = {0,sizeof(id),id};

     char x[PGS_ZZZ],y[PGS_ZZZ];
     octet X= {0,sizeof(x),x};
     octet Y= {0,sizeof(y),y};

     /* Master secret shares */
     char ms1[PGS_ZZZ], ms2[PGS_ZZZ];
     octet MS1= {0,sizeof(ms1),ms1};
     octet MS2= {0,sizeof(ms2),ms2};

     /* Hash values of client ID */
     char hcid[PFS_ZZZ];
     octet HCID= {0,sizeof(hcid), hcid};

     /* Hash values of messages */
     char hm[PFS_ZZZ];
     octet HM= {0,sizeof(hm), hm};

     /* Client secret and shares */
     char cs1[2*PFS_ZZZ+1], cs2[2*PFS_ZZZ+1], sec[2*PFS_ZZZ+1];
     octet SEC= {0,sizeof(sec),sec};
     octet CS1= {0,sizeof(cs1), cs1};
     octet CS2= {0,sizeof(cs2), cs2};

     /* Server secret and shares */
     char ss1[G2LEN], ss2[G2LEN], serverSecret[G2LEN];
     octet ServerSecret= {0,sizeof(serverSecret),serverSecret};
     octet SS1= {0,sizeof(ss1),ss1};
     octet SS2= {0,sizeof(ss2),ss2};

     /* Time Permit and shares */
     char tp1[2*PFS_ZZZ+1], tp2[2*PFS_ZZZ+1], tp[2*PFS_ZZZ+1];
     octet TP= {0,sizeof(tp),tp};
     octet TP1= {0,sizeof(tp1),tp1};
     octet TP2= {0,sizeof(tp2),tp2};

     /* Token stored on device */
     char token[2*PFS_ZZZ+1];
     octet TOKEN= {0,sizeof(token),token};

     /* Precomputed values stored on device */
     char g1[GTLEN],g2[GTLEN];
     octet G1= {0,sizeof(g1),g1};
     octet G2= {0,sizeof(g2),g2};

     char ut[2*PFS_ZZZ+1],u[2*PFS_ZZZ+1];
     octet UT= {0,sizeof(ut),ut};
     octet U= {0,sizeof(u),u};

     char hid[2*PFS_ZZZ+1],htid[2*PFS_ZZZ+1];
     octet HID= {0,sizeof(hid),hid};
     octet HTID= {0,sizeof(htid),htid};

     char e[GTLEN], f[GTLEN];
     octet E= {0,sizeof(e),e};
     octet F= {0,sizeof(f),f};

     char r[PGS_ZZZ],z[2*PFS_ZZZ+1],w[PGS_ZZZ],t[2*PFS_ZZZ+1];

     char ck[AESKEY_ZZZ],sk[AESKEY_ZZZ];
     octet R= {0,sizeof(r),r};
     octet Z= {0,sizeof(z),z};
     octet W= {0,sizeof(w),w};
     octet T= {0,sizeof(t),t};
     octet SK= {0,sizeof(sk),sk};
     octet CK= {0,sizeof(ck),ck};

     /* AES-GCM */
     char raw[256], header[16], ciphertext[32], res[32], plaintext[32], tag[16], iv[16];
     octet HEADER= {0,0,header}, Ciphertext= {0,sizeof(ciphertext),ciphertext};
     octet Plaintext= {0,sizeof(plaintext),plaintext}, Res= {0,sizeof(res),res}, Tag= {0,sizeof(tag),tag}, IV= {0,sizeof(iv),iv};
     csprng rng;

     int hash = SHA256;

     /* Fake random source */
     RAND_clean(&rng);
     for (i=0; i<256; i++) raw[i]=(char)i;
     RAND_seed(&rng,256,raw);

     PIN1 = 1234;
     PIN2 = 1234;

     /* Assign the End-User an ID */
     char* user = "alice@milagro.com";
     OCT_jstring(&ID,user);
     printf("CLIENT: ID %s\n", user);

     int date = 0;
     char seed[100] = {0};
     octet SEED = {0,sizeof(seed),seed};
     csprng RNG;

     /* unrandom seed value! */
     SEED.len=100;
     for (i=0; i<100; i++) SEED.val[i]=i+1;

     /* initialise random number generator */
     CREATE_CSPRNG(&RNG,&SEED);

     /* Hash ID */
     HASH_ID(hash,&ID,&HCID);
     OCT_output(&HCID);

     /* Generate Client master secret for MILAGRO and Customer */
     rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS1);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS1) Error %d\n", rtn);
         return 1;
     }
     rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS2);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS2) Error %d\n", rtn);
         return 1;
     }
     printf("MASTER SECRET MILAGRO:= 0x");
     OCT_output(&MS1);
     printf("MASTER SECRET CUSTOMER:= 0x");
     OCT_output(&MS2);

     /* Generate server secret shares */
     rtn = MPIN_ZZZ_GET_SERVER_SECRET(&MS1,&SS1);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_SERVER_SECRET(&MS1,&SS1) Error %d\n", rtn);
         return 1;
     }
     rtn = MPIN_ZZZ_GET_SERVER_SECRET(&MS2,&SS2);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_SERVER_SECRET(&MS2,&SS2) Error %d\n", rtn);
         return 1;
     }
     printf("SS1 = 0x");
     OCT_output(&SS1);
     printf("SS2 = 0x");
     OCT_output(&SS2);

     /* Combine server secret share */
     rtn = MPIN_ZZZ_RECOMBINE_G2(&SS1, &SS2, &ServerSecret);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RECOMBINE_G2(&SS1, &SS2, &ServerSecret) Error %d\n", rtn);
         return 1;
     }
     printf("ServerSecret = 0x");
     OCT_output(&ServerSecret);

     /* Generate client secret shares */
     rtn = MPIN_ZZZ_GET_CLIENT_SECRET(&MS1,&HCID,&CS1);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_CLIENT_SECRET(&MS1,&HCID,&CS1) Error %d\n", rtn);
         return 1;
     }
     rtn = MPIN_ZZZ_GET_CLIENT_SECRET(&MS2,&HCID,&CS2);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_CLIENT_SECRET(&MS2,&HCID,&CS2) Error %d\n", rtn);
         return 1;
     }
     printf("CS1 = 0x");
     OCT_output(&CS1);
     printf("CS2 = 0x");
     OCT_output(&CS2);

     /* Combine client secret shares : TOKEN is the full client secret */
     rtn = MPIN_ZZZ_RECOMBINE_G1(&CS1, &CS2, &TOKEN);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RECOMBINE_G1(&CS1, &CS2, &TOKEN) Error %d\n", rtn);
         return 1;
     }
     printf("Client Secret = 0x");
     OCT_output(&TOKEN);

     /* Generate Time Permit shares */
     date = today();
     printf("Date %d \n", date);
     rtn = MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS1,&HCID,&TP1);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS1,&HCID,&TP1) Error %d\n", rtn);
         return 1;
     }
     rtn = MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS2,&HCID,&TP2);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS2,&HCID,&TP2) Error %d\n", rtn);
         return 1;
     }
     printf("TP1 = 0x");
     OCT_output(&TP1);
     printf("TP2 = 0x");
     OCT_output(&TP2);

     /* Combine Time Permit shares */
     rtn = MPIN_ZZZ_RECOMBINE_G1(&TP1, &TP2, &TP);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RECOMBINE_G1(&TP1, &TP2, &TP) Error %d\n", rtn);
         return 1;
     }
     printf("Time Permit = 0x");
     OCT_output(&TP);

     /* This encoding makes Time permit look random */
     if (MPIN_ZZZ_ENCODING(&RNG,&TP)!=0) printf("Encoding error\n");
     printf("Encoded Time Permit= ");
     OCT_output(&TP);
     if (MPIN_ZZZ_DECODING(&TP)!=0) printf("Decoding error\n");
     printf("Decoded Time Permit= ");
     OCT_output(&TP);

     /* Client extracts PIN1 from secret to create Token */
     rtn = MPIN_ZZZ_EXTRACT_PIN(hash,&ID, PIN1, &TOKEN);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_EXTRACT_PIN( &ID, PIN, &TOKEN) Error %d\n", rtn);
         return 1;
     }
     printf("Token = 0x");
     OCT_output(&TOKEN);

     /* Client precomputation */
     MPIN_ZZZ_PRECOMPUTE(&TOKEN,&HCID,NULL,&G1,&G2);

     /* Client first pass */
     rtn = MPIN_ZZZ_CLIENT_1(hash,date,&ID,&RNG,&X,PIN2,&TOKEN,&SEC,&U,&UT,&TP);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_CLIENT_1 ERROR %d\n", rtn);
         return 1;
     }

     /* Client sends Z=r.ID to Server */
     MPIN_ZZZ_GET_G1_MULTIPLE(&RNG,1,&R,&HCID,&Z);

     /* Server calculates H(ID) and H(T|H(ID)) (if time permits enabled), and maps them to points on the curve HID and HTID resp. */
     MPIN_ZZZ_SERVER_1(hash,date,&ID,&HID,&HTID);

     /* Server generates Random number Y and sends it to Client */
     rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&Y);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&Y) Error %d\n", rtn);
         return 1;
     }
     printf("Y = 0x");
     OCT_output(&Y);

     /* Server sends T=w.ID to client */
     MPIN_ZZZ_GET_G1_MULTIPLE(&RNG,0,&W,&HTID,&T);
     printf("T = 0x");
     OCT_output(&T);

     /* Client second pass */
     rtn = MPIN_ZZZ_CLIENT_2(&X,&Y,&SEC);
     if (rtn != 0)
     {
         printf("MPIN_ZZZ_CLIENT_2(&X,&Y,&SEC) Error %d\n", rtn);
     }
     printf("V = 0x");
     OCT_output(&SEC);

     /* Server second pass */
     rtn = MPIN_ZZZ_SERVER_2(date,NULL,&HTID,&Y,&ServerSecret,NULL,&UT,&SEC,&E,&F,NULL);

     if (rtn != 0)
     {
         printf("FAILURE Invalid Token Error Code %d\n", rtn);
     }

     HASH_ALL(hash,&HCID,NULL,&UT,&SEC,&Y,&Z,&T,&HM);
     MPIN_ZZZ_CLIENT_KEY(hash,&G1,&G2,PIN2,&R,&X,&HM,&T,&CK);
     printf("Client Key = ");
     OCT_output(&CK);

     /* Server will use the hashed ID if anonymous connection required.
     HASH_ID(hash,&ID,&HSID);
     HASH_ALL(&HSID,NULL,&UT,&SEC,&Y,&Z,&T,&HM);
     */
     MPIN_ZZZ_SERVER_KEY(hash,&Z,&ServerSecret,&W,&HM,&HID,NULL,&UT,&SK);
     printf("Server Key = ");
     OCT_output(&SK);

     if (!OCT_comp(&CK,&SK))
     {
         printf("FAILURE Keys are different\n");
         return 1;
     }

     for (i=0; i<10; i++)
     {
         /* Self test AES-GCM encyption/decryption */
         OCT_rand(&IV,&rng,16);
         OCT_rand(&Plaintext,&rng,32);
         OCT_copy(&Res,&Plaintext);
 #ifdef DEBUG
         printf("Plaintext = ");
         OCT_output(&Plaintext);
         printf("IV = ");
         OCT_output(&IV);
 #endif
         AES_GCM_ENCRYPT(&CK,&IV,&HEADER,&Plaintext,&Ciphertext,&Tag);
         AES_GCM_DECRYPT(&CK,&IV,&HEADER,&Ciphertext,&Plaintext,&Tag);
 #ifdef DEBUG
         printf("Ciphertext = ");
         OCT_output(&Ciphertext);
 #endif

         if (!OCT_comp(&Res,&Plaintext))
         {
             printf("FAILURE Encryption/Decryption with AES-GCM\n");
             return 1;
         }
     }

     printf("SUCCESS\n");
     return 0;
 }
	/**
	* @file test_mpinfull_time_permits_ZZZ.c
	* @author Kealan McCusker
	* @brief Test M-pin Full
	*
	* LICENSE
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*/

	/* Test M-Pin Full */

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <time.h>
	#include "config_curve_ZZZ.h"
	#include "pbc_support.h"
	#include "randapi.h"
	#if CURVE_SECURITY_ZZZ == 128
	#include "mpin_ZZZ.h"
	#elif CURVE_SECURITY_ZZZ == 192
	#include "mpin192_ZZZ.h"
	#elif CURVE_SECURITY_ZZZ == 256
	#include "mpin256_ZZZ.h"
	#endif

	#if CURVE_SECURITY_ZZZ == 128
	#define G2LEN 4*PFS_ZZZ
	#elif CURVE_SECURITY_ZZZ == 192
	#define G2LEN 8*PFS_ZZZ
	#elif CURVE_SECURITY_ZZZ == 256
	#define G2LEN 16*PFS_ZZZ
	#endif
	#define GTLEN 3*G2LEN

	// #define DEBUG

	int main()
	{
	int i,PIN1,PIN2,rtn;

	char id[256];
	octet ID = {0,sizeof(id),id};

	char x[PGS_ZZZ],y[PGS_ZZZ];
	octet X= {0,sizeof(x),x};
	octet Y= {0,sizeof(y),y};

	/* Master secret shares */
	char ms1[PGS_ZZZ], ms2[PGS_ZZZ];
	octet MS1= {0,sizeof(ms1),ms1};
	octet MS2= {0,sizeof(ms2),ms2};

	/* Hash values of client ID */
	char hcid[PFS_ZZZ];
	octet HCID= {0,sizeof(hcid), hcid};

	/* Hash values of messages */
	char hm[PFS_ZZZ];
	octet HM= {0,sizeof(hm), hm};

	/* Client secret and shares */
	char cs1[2PFS_ZZZ+1], cs2[2PFS_ZZZ+1], sec[2*PFS_ZZZ+1];
	octet SEC= {0,sizeof(sec),sec};
	octet CS1= {0,sizeof(cs1), cs1};
	octet CS2= {0,sizeof(cs2), cs2};

	/* Server secret and shares */
	char ss1[G2LEN], ss2[G2LEN], serverSecret[G2LEN];
	octet ServerSecret= {0,sizeof(serverSecret),serverSecret};
	octet SS1= {0,sizeof(ss1),ss1};
	octet SS2= {0,sizeof(ss2),ss2};

	/* Time Permit and shares */
	char tp1[2PFS_ZZZ+1], tp2[2PFS_ZZZ+1], tp[2*PFS_ZZZ+1];
	octet TP= {0,sizeof(tp),tp};
	octet TP1= {0,sizeof(tp1),tp1};
	octet TP2= {0,sizeof(tp2),tp2};

	/* Token stored on device */
	char token[2*PFS_ZZZ+1];
	octet TOKEN= {0,sizeof(token),token};

	/* Precomputed values stored on device */
	char g1[GTLEN],g2[GTLEN];
	octet G1= {0,sizeof(g1),g1};
	octet G2= {0,sizeof(g2),g2};

	char ut[2PFS_ZZZ+1],u[2PFS_ZZZ+1];
	octet UT= {0,sizeof(ut),ut};
	octet U= {0,sizeof(u),u};

	char hid[2PFS_ZZZ+1],htid[2PFS_ZZZ+1];
	octet HID= {0,sizeof(hid),hid};
	octet HTID= {0,sizeof(htid),htid};

	char e[GTLEN], f[GTLEN];
	octet E= {0,sizeof(e),e};
	octet F= {0,sizeof(f),f};

	char r[PGS_ZZZ],z[2PFS_ZZZ+1],w[PGS_ZZZ],t[2PFS_ZZZ+1];

	char ck[AESKEY_ZZZ],sk[AESKEY_ZZZ];
	octet R= {0,sizeof(r),r};
	octet Z= {0,sizeof(z),z};
	octet W= {0,sizeof(w),w};
	octet T= {0,sizeof(t),t};
	octet SK= {0,sizeof(sk),sk};
	octet CK= {0,sizeof(ck),ck};

	/* AES-GCM */
	char raw[256], header[16], ciphertext[32], res[32], plaintext[32], tag[16], iv[16];
	octet HEADER= {0,0,header}, Ciphertext= {0,sizeof(ciphertext),ciphertext};
	octet Plaintext= {0,sizeof(plaintext),plaintext}, Res= {0,sizeof(res),res}, Tag= {0,sizeof(tag),tag}, IV= {0,sizeof(iv),iv};
	csprng rng;

	int hash = SHA256;

	/* Fake random source */
	RAND_clean(&rng);
	for (i=0; i<256; i++) raw[i]=(char)i;
	RAND_seed(&rng,256,raw);

	PIN1 = 1234;
	PIN2 = 1234;

	/* Assign the End-User an ID */
	char* user = "alice@milagro.com";
	OCT_jstring(&ID,user);
	printf("CLIENT: ID %s\n", user);

	int date = 0;
	char seed[100] = {0};
	octet SEED = {0,sizeof(seed),seed};
	csprng RNG;

	/* unrandom seed value! */
	SEED.len=100;
	for (i=0; i<100; i++) SEED.val[i]=i+1;

	/* initialise random number generator */
	CREATE_CSPRNG(&RNG,&SEED);

	/* Hash ID */
	HASH_ID(hash,&ID,&HCID);
	OCT_output(&HCID);

	/* Generate Client master secret for MILAGRO and Customer */
	rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS1);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS1) Error %d\n", rtn);
	return 1;
	}
	rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS2);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&MS2) Error %d\n", rtn);
	return 1;
	}
	printf("MASTER SECRET MILAGRO:= 0x");
	OCT_output(&MS1);
	printf("MASTER SECRET CUSTOMER:= 0x");
	OCT_output(&MS2);

	/* Generate server secret shares */
	rtn = MPIN_ZZZ_GET_SERVER_SECRET(&MS1,&SS1);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_SERVER_SECRET(&MS1,&SS1) Error %d\n", rtn);
	return 1;
	}
	rtn = MPIN_ZZZ_GET_SERVER_SECRET(&MS2,&SS2);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_SERVER_SECRET(&MS2,&SS2) Error %d\n", rtn);
	return 1;
	}
	printf("SS1 = 0x");
	OCT_output(&SS1);
	printf("SS2 = 0x");
	OCT_output(&SS2);

	/* Combine server secret share */
	rtn = MPIN_ZZZ_RECOMBINE_G2(&SS1, &SS2, &ServerSecret);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RECOMBINE_G2(&SS1, &SS2, &ServerSecret) Error %d\n", rtn);
	return 1;
	}
	printf("ServerSecret = 0x");
	OCT_output(&ServerSecret);

	/* Generate client secret shares */
	rtn = MPIN_ZZZ_GET_CLIENT_SECRET(&MS1,&HCID,&CS1);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_CLIENT_SECRET(&MS1,&HCID,&CS1) Error %d\n", rtn);
	return 1;
	}
	rtn = MPIN_ZZZ_GET_CLIENT_SECRET(&MS2,&HCID,&CS2);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_CLIENT_SECRET(&MS2,&HCID,&CS2) Error %d\n", rtn);
	return 1;
	}
	printf("CS1 = 0x");
	OCT_output(&CS1);
	printf("CS2 = 0x");
	OCT_output(&CS2);

	/* Combine client secret shares : TOKEN is the full client secret */
	rtn = MPIN_ZZZ_RECOMBINE_G1(&CS1, &CS2, &TOKEN);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RECOMBINE_G1(&CS1, &CS2, &TOKEN) Error %d\n", rtn);
	return 1;
	}
	printf("Client Secret = 0x");
	OCT_output(&TOKEN);

	/* Generate Time Permit shares */
	date = today();
	printf("Date %d \n", date);
	rtn = MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS1,&HCID,&TP1);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS1,&HCID,&TP1) Error %d\n", rtn);
	return 1;
	}
	rtn = MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS2,&HCID,&TP2);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_GET_CLIENT_PERMIT(hash,date,&MS2,&HCID,&TP2) Error %d\n", rtn);
	return 1;
	}
	printf("TP1 = 0x");
	OCT_output(&TP1);
	printf("TP2 = 0x");
	OCT_output(&TP2);

	/* Combine Time Permit shares */
	rtn = MPIN_ZZZ_RECOMBINE_G1(&TP1, &TP2, &TP);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RECOMBINE_G1(&TP1, &TP2, &TP) Error %d\n", rtn);
	return 1;
	}
	printf("Time Permit = 0x");
	OCT_output(&TP);

	/* This encoding makes Time permit look random */
	if (MPIN_ZZZ_ENCODING(&RNG,&TP)!=0) printf("Encoding error\n");
	printf("Encoded Time Permit= ");
	OCT_output(&TP);
	if (MPIN_ZZZ_DECODING(&TP)!=0) printf("Decoding error\n");
	printf("Decoded Time Permit= ");
	OCT_output(&TP);

	/* Client extracts PIN1 from secret to create Token */
	rtn = MPIN_ZZZ_EXTRACT_PIN(hash,&ID, PIN1, &TOKEN);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_EXTRACT_PIN( &ID, PIN, &TOKEN) Error %d\n", rtn);
	return 1;
	}
	printf("Token = 0x");
	OCT_output(&TOKEN);

	/* Client precomputation */
	MPIN_ZZZ_PRECOMPUTE(&TOKEN,&HCID,NULL,&G1,&G2);

	/* Client first pass */
	rtn = MPIN_ZZZ_CLIENT_1(hash,date,&ID,&RNG,&X,PIN2,&TOKEN,&SEC,&U,&UT,&TP);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_CLIENT_1 ERROR %d\n", rtn);
	return 1;
	}

	/* Client sends Z=r.ID to Server */
	MPIN_ZZZ_GET_G1_MULTIPLE(&RNG,1,&R,&HCID,&Z);

	/* Server calculates H(ID) and H(T\|H(ID)) (if time permits enabled), and maps them to points on the curve HID and HTID resp. */
	MPIN_ZZZ_SERVER_1(hash,date,&ID,&HID,&HTID);

	/* Server generates Random number Y and sends it to Client */
	rtn = MPIN_ZZZ_RANDOM_GENERATE(&RNG,&Y);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_RANDOM_GENERATE(&RNG,&Y) Error %d\n", rtn);
	return 1;
	}
	printf("Y = 0x");
	OCT_output(&Y);

	/* Server sends T=w.ID to client */
	MPIN_ZZZ_GET_G1_MULTIPLE(&RNG,0,&W,&HTID,&T);
	printf("T = 0x");
	OCT_output(&T);

	/* Client second pass */
	rtn = MPIN_ZZZ_CLIENT_2(&X,&Y,&SEC);
	if (rtn != 0)
	{
	printf("MPIN_ZZZ_CLIENT_2(&X,&Y,&SEC) Error %d\n", rtn);
	}
	printf("V = 0x");
	OCT_output(&SEC);

	/* Server second pass */
	rtn = MPIN_ZZZ_SERVER_2(date,NULL,&HTID,&Y,&ServerSecret,NULL,&UT,&SEC,&E,&F,NULL);

	if (rtn != 0)
	{
	printf("FAILURE Invalid Token Error Code %d\n", rtn);
	}

	HASH_ALL(hash,&HCID,NULL,&UT,&SEC,&Y,&Z,&T,&HM);
	MPIN_ZZZ_CLIENT_KEY(hash,&G1,&G2,PIN2,&R,&X,&HM,&T,&CK);
	printf("Client Key = ");
	OCT_output(&CK);

	/* Server will use the hashed ID if anonymous connection required.
	HASH_ID(hash,&ID,&HSID);
	HASH_ALL(&HSID,NULL,&UT,&SEC,&Y,&Z,&T,&HM);
	*/
	MPIN_ZZZ_SERVER_KEY(hash,&Z,&ServerSecret,&W,&HM,&HID,NULL,&UT,&SK);
	printf("Server Key = ");
	OCT_output(&SK);

	if (!OCT_comp(&CK,&SK))
	{
	printf("FAILURE Keys are different\n");
	return 1;
	}

	for (i=0; i<10; i++)
	{
	/* Self test AES-GCM encyption/decryption */
	OCT_rand(&IV,&rng,16);
	OCT_rand(&Plaintext,&rng,32);
	OCT_copy(&Res,&Plaintext);
	#ifdef DEBUG
	printf("Plaintext = ");
	OCT_output(&Plaintext);
	printf("IV = ");
	OCT_output(&IV);
	#endif
	AES_GCM_ENCRYPT(&CK,&IV,&HEADER,&Plaintext,&Ciphertext,&Tag);
	AES_GCM_DECRYPT(&CK,&IV,&HEADER,&Ciphertext,&Plaintext,&Tag);
	#ifdef DEBUG
	printf("Ciphertext = ");
	OCT_output(&Ciphertext);
	#endif

	if (!OCT_comp(&Res,&Plaintext))
	{
	printf("FAILURE Encryption/Decryption with AES-GCM\n");
	return 1;
	}
	}

	printf("SUCCESS\n");
	return 0;
	}