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minetest/src/util/srp.cpp

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/*
* Secure Remote Password 6a implementation
* https://github.com/est31/csrp-gmp
*
* The MIT License (MIT)
*
* Copyright (c) 2010, 2013 Tom Cocagne, 2015 est31 <MTest31@outlook.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is furnished to do
* so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
#ifdef WIN32
#include <windows.h>
#include <wincrypt.h>
#else
#include <time.h>
#endif
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <config.h>
#if USE_SYSTEM_GMP || defined (__ANDROID__) || defined (ANDROID)
#include <gmp.h>
#else
#include <gmp/mini-gmp.h>
#endif
#include <util/sha2.h>
#include "srp.h"
//#define CSRP_USE_SHA1
#define CSRP_USE_SHA256
#define srp_dbg_data(data, datalen, prevtext) ;
/*void srp_dbg_data(unsigned char * data, size_t datalen, char * prevtext)
{
printf(prevtext);
size_t i;
for (i = 0; i < datalen; i++)
{
printf("%02X", data[i]);
}
printf("\n");
}*/
static int g_initialized = 0;
#define RAND_BUFF_MAX 128
static unsigned int g_rand_idx;
static unsigned char g_rand_buff[RAND_BUFF_MAX];
typedef struct
{
mpz_t N;
mpz_t g;
} NGConstant;
struct NGHex
{
const char* n_hex;
const char* g_hex;
};
/* All constants here were pulled from Appendix A of RFC 5054 */
static struct NGHex global_Ng_constants[] = {
{ /* 1024 */
"EEAF0AB9ADB38DD69C33F80AFA8FC5E86072618775FF3C0B9EA2314C9C256576D674DF7496"
"EA81D3383B4813D692C6E0E0D5D8E250B98BE48E495C1D6089DAD15DC7D7B46154D6B6CE8E"
"F4AD69B15D4982559B297BCF1885C529F566660E57EC68EDBC3C05726CC02FD4CBF4976EAA"
"9AFD5138FE8376435B9FC61D2FC0EB06E3",
"2"
},
{ /* 2048 */
"AC6BDB41324A9A9BF166DE5E1389582FAF72B6651987EE07FC3192943DB56050A37329CBB4"
"A099ED8193E0757767A13DD52312AB4B03310DCD7F48A9DA04FD50E8083969EDB767B0CF60"
"95179A163AB3661A05FBD5FAAAE82918A9962F0B93B855F97993EC975EEAA80D740ADBF4FF"
"747359D041D5C33EA71D281E446B14773BCA97B43A23FB801676BD207A436C6481F1D2B907"
"8717461A5B9D32E688F87748544523B524B0D57D5EA77A2775D2ECFA032CFBDBF52FB37861"
"60279004E57AE6AF874E7303CE53299CCC041C7BC308D82A5698F3A8D0C38271AE35F8E9DB"
"FBB694B5C803D89F7AE435DE236D525F54759B65E372FCD68EF20FA7111F9E4AFF73",
"2"
},
{ /* 4096 */
"FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD129024E08"
"8A67CC74020BBEA63B139B22514A08798E3404DDEF9519B3CD3A431B"
"302B0A6DF25F14374FE1356D6D51C245E485B576625E7EC6F44C42E9"
"A637ED6B0BFF5CB6F406B7EDEE386BFB5A899FA5AE9F24117C4B1FE6"
"49286651ECE45B3DC2007CB8A163BF0598DA48361C55D39A69163FA8"
"FD24CF5F83655D23DCA3AD961C62F356208552BB9ED529077096966D"
"670C354E4ABC9804F1746C08CA18217C32905E462E36CE3BE39E772C"
"180E86039B2783A2EC07A28FB5C55DF06F4C52C9DE2BCBF695581718"
"3995497CEA956AE515D2261898FA051015728E5A8AAAC42DAD33170D"
"04507A33A85521ABDF1CBA64ECFB850458DBEF0A8AEA71575D060C7D"
"B3970F85A6E1E4C7ABF5AE8CDB0933D71E8C94E04A25619DCEE3D226"
"1AD2EE6BF12FFA06D98A0864D87602733EC86A64521F2B18177B200C"
"BBE117577A615D6C770988C0BAD946E208E24FA074E5AB3143DB5BFC"
"E0FD108E4B82D120A92108011A723C12A787E6D788719A10BDBA5B26"
"99C327186AF4E23C1A946834B6150BDA2583E9CA2AD44CE8DBBBC2DB"
"04DE8EF92E8EFC141FBECAA6287C59474E6BC05D99B2964FA090C3A2"
"233BA186515BE7ED1F612970CEE2D7AFB81BDD762170481CD0069127"
"D5B05AA993B4EA988D8FDDC186FFB7DC90A6C08F4DF435C934063199"
"FFFFFFFFFFFFFFFF",
"5"
},
{ /* 8192 */
"FFFFFFFFFFFFFFFFC90FDAA22168C234C4C6628B80DC1CD129024E08"
"8A67CC74020BBEA63B139B22514A08798E3404DDEF9519B3CD3A431B"
"302B0A6DF25F14374FE1356D6D51C245E485B576625E7EC6F44C42E9"
"A637ED6B0BFF5CB6F406B7EDEE386BFB5A899FA5AE9F24117C4B1FE6"
"49286651ECE45B3DC2007CB8A163BF0598DA48361C55D39A69163FA8"
"FD24CF5F83655D23DCA3AD961C62F356208552BB9ED529077096966D"
"670C354E4ABC9804F1746C08CA18217C32905E462E36CE3BE39E772C"
"180E86039B2783A2EC07A28FB5C55DF06F4C52C9DE2BCBF695581718"
"3995497CEA956AE515D2261898FA051015728E5A8AAAC42DAD33170D"
"04507A33A85521ABDF1CBA64ECFB850458DBEF0A8AEA71575D060C7D"
"B3970F85A6E1E4C7ABF5AE8CDB0933D71E8C94E04A25619DCEE3D226"
"1AD2EE6BF12FFA06D98A0864D87602733EC86A64521F2B18177B200C"
"BBE117577A615D6C770988C0BAD946E208E24FA074E5AB3143DB5BFC"
"E0FD108E4B82D120A92108011A723C12A787E6D788719A10BDBA5B26"
"99C327186AF4E23C1A946834B6150BDA2583E9CA2AD44CE8DBBBC2DB"
"04DE8EF92E8EFC141FBECAA6287C59474E6BC05D99B2964FA090C3A2"
"233BA186515BE7ED1F612970CEE2D7AFB81BDD762170481CD0069127"
"D5B05AA993B4EA988D8FDDC186FFB7DC90A6C08F4DF435C934028492"
"36C3FAB4D27C7026C1D4DCB2602646DEC9751E763DBA37BDF8FF9406"
"AD9E530EE5DB382F413001AEB06A53ED9027D831179727B0865A8918"
"DA3EDBEBCF9B14ED44CE6CBACED4BB1BDB7F1447E6CC254B33205151"
"2BD7AF426FB8F401378CD2BF5983CA01C64B92ECF032EA15D1721D03"
"F482D7CE6E74FEF6D55E702F46980C82B5A84031900B1C9E59E7C97F"
"BEC7E8F323A97A7E36CC88BE0F1D45B7FF585AC54BD407B22B4154AA"
"CC8F6D7EBF48E1D814CC5ED20F8037E0A79715EEF29BE32806A1D58B"
"B7C5DA76F550AA3D8A1FBFF0EB19CCB1A313D55CDA56C9EC2EF29632"
"387FE8D76E3C0468043E8F663F4860EE12BF2D5B0B7474D6E694F91E"
"6DBE115974A3926F12FEE5E438777CB6A932DF8CD8BEC4D073B931BA"
"3BC832B68D9DD300741FA7BF8AFC47ED2576F6936BA424663AAB639C"
"5AE4F5683423B4742BF1C978238F16CBE39D652DE3FDB8BEFC848AD9"
"22222E04A4037C0713EB57A81A23F0C73473FC646CEA306B4BCBC886"
"2F8385DDFA9D4B7FA2C087E879683303ED5BDD3A062B3CF5B3A278A6"
"6D2A13F83F44F82DDF310EE074AB6A364597E899A0255DC164F31CC5"
"0846851DF9AB48195DED7EA1B1D510BD7EE74D73FAF36BC31ECFA268"
"359046F4EB879F924009438B481C6CD7889A002ED5EE382BC9190DA6"
"FC026E479558E4475677E9AA9E3050E2765694DFC81F56E880B96E71"
"60C980DD98EDD3DFFFFFFFFFFFFFFFFF",
"13"
},
{0,0} /* null sentinel */
};
static void delete_ng(NGConstant *ng)
{
if (ng) {
mpz_clear(ng->N);
mpz_clear(ng->g);
free(ng);
}
}
static NGConstant *new_ng( SRP_NGType ng_type, const char *n_hex, const char *g_hex )
{
NGConstant *ng = (NGConstant *) malloc(sizeof(NGConstant));
mpz_init(ng->N);
mpz_init(ng->g);
if (!ng)
return 0;
if (ng_type != SRP_NG_CUSTOM) {
n_hex = global_Ng_constants[ ng_type ].n_hex;
g_hex = global_Ng_constants[ ng_type ].g_hex;
}
int rv = 0;
rv = mpz_set_str(ng->N, n_hex, 16);
rv = rv | mpz_set_str(ng->g, g_hex, 16);
if (rv) {
delete_ng(ng);
return 0;
}
return ng;
}
typedef union
{
SHA_CTX sha;
SHA256_CTX sha256;
//SHA512_CTX sha512;
} HashCTX;
struct SRPVerifier
{
SRP_HashAlgorithm hash_alg;
NGConstant *ng;
char *username;
unsigned char *bytes_B;
int authenticated;
unsigned char M[SHA512_DIGEST_LENGTH];
unsigned char H_AMK[SHA512_DIGEST_LENGTH];
unsigned char session_key[SHA512_DIGEST_LENGTH];
};
struct SRPUser
{
SRP_HashAlgorithm hash_alg;
NGConstant *ng;
mpz_t a;
mpz_t A;
mpz_t S;
unsigned char *bytes_A;
int authenticated;
char *username;
char *username_verifier;
unsigned char *password;
size_t password_len;
unsigned char M[SHA512_DIGEST_LENGTH];
unsigned char H_AMK[SHA512_DIGEST_LENGTH];
unsigned char session_key[SHA512_DIGEST_LENGTH];
};
static int hash_init(SRP_HashAlgorithm alg, HashCTX *c)
{
switch (alg) {
#ifdef CSRP_USE_SHA1
case SRP_SHA1: return SHA1_Init(&c->sha);
#endif
/*case SRP_SHA224: return SHA224_Init(&c->sha256);*/
#ifdef CSRP_USE_SHA256
case SRP_SHA256: return SHA256_Init(&c->sha256);
#endif
/*case SRP_SHA384: return SHA384_Init(&c->sha512);
case SRP_SHA512: return SHA512_Init(&c->sha512);*/
default: return -1;
};
}
static int hash_update( SRP_HashAlgorithm alg, HashCTX *c, const void *data, size_t len )
{
switch (alg) {
#ifdef CSRP_USE_SHA1
case SRP_SHA1: return SHA1_Update(&c->sha, data, len);
#endif
/*case SRP_SHA224: return SHA224_Update(&c->sha256, data, len);*/
#ifdef CSRP_USE_SHA256
case SRP_SHA256: return SHA256_Update(&c->sha256, data, len);
#endif
/*case SRP_SHA384: return SHA384_Update( &c->sha512, data, len );
case SRP_SHA512: return SHA512_Update( &c->sha512, data, len );*/
default: return -1;
};
}
static int hash_final( SRP_HashAlgorithm alg, HashCTX *c, unsigned char *md )
{
switch (alg) {
#ifdef CSRP_USE_SHA1
case SRP_SHA1: return SHA1_Final(md, &c->sha);
#endif
/*case SRP_SHA224: return SHA224_Final(md, &c->sha256);*/
#ifdef CSRP_USE_SHA256
case SRP_SHA256: return SHA256_Final(md, &c->sha256);
#endif
/*case SRP_SHA384: return SHA384_Final(md, &c->sha512);
case SRP_SHA512: return SHA512_Final(md, &c->sha512);*/
default: return -1;
};
}
static unsigned char *hash(SRP_HashAlgorithm alg, const unsigned char *d, size_t n, unsigned char *md)
{
switch (alg) {
#ifdef CSRP_USE_SHA1
case SRP_SHA1: return SHA1(d, n, md);
#endif
/*case SRP_SHA224: return SHA224( d, n, md );*/
#ifdef CSRP_USE_SHA256
case SRP_SHA256: return SHA256(d, n, md);
#endif
/*case SRP_SHA384: return SHA384( d, n, md );
case SRP_SHA512: return SHA512( d, n, md );*/
default: return 0;
};
}
static size_t hash_length(SRP_HashAlgorithm alg)
{
switch (alg) {
#ifdef CSRP_USE_SHA1
case SRP_SHA1: return SHA_DIGEST_LENGTH;
#endif
/*case SRP_SHA224: return SHA224_DIGEST_LENGTH;*/
#ifdef CSRP_USE_SHA256
case SRP_SHA256: return SHA256_DIGEST_LENGTH;
#endif
/*case SRP_SHA384: return SHA384_DIGEST_LENGTH;
case SRP_SHA512: return SHA512_DIGEST_LENGTH;*/
default: return -1;
};
}
inline static int mpz_num_bytes(const mpz_t op)
{
return (mpz_sizeinbase (op, 2) + 7) / 8;
}
inline static void mpz_to_bin(const mpz_t op, unsigned char *to)
{
mpz_export(to, NULL, 1, 1, 1, 0, op);
}
inline static void mpz_from_bin(const unsigned char *s, size_t len, mpz_t ret)
{
mpz_import(ret, len, 1, 1, 1, 0, s);
}
// set op to (op1 * op2) mod d, using tmp for the calculation
inline static void mpz_mulm(mpz_t op, const mpz_t op1, const mpz_t op2, const mpz_t d, mpz_t tmp)
{
mpz_mul(tmp, op1, op2);
mpz_mod(op, tmp, d);
}
// set op to (op1 + op2) mod d, using tmp for the calculation
inline static void mpz_addm( mpz_t op, const mpz_t op1, const mpz_t op2, const mpz_t d, mpz_t tmp )
{
mpz_add(tmp, op1, op2);
mpz_mod(op, tmp, d);
}
// set op to (op1 - op2) mod d, using tmp for the calculation
inline static void mpz_subm(mpz_t op, const mpz_t op1, const mpz_t op2, const mpz_t d, mpz_t tmp)
{
mpz_sub(tmp, op1, op2);
mpz_mod(op, tmp, d);
}
static int H_nn(mpz_t result, SRP_HashAlgorithm alg, const mpz_t N, const mpz_t n1, const mpz_t n2)
{
unsigned char buff[SHA512_DIGEST_LENGTH];
size_t len_N = mpz_num_bytes(N);
size_t len_n1 = mpz_num_bytes(n1);
size_t len_n2 = mpz_num_bytes(n2);
size_t nbytes = len_N + len_N;
unsigned char *bin = (unsigned char *) malloc(nbytes);
if (!bin)
return 0;
if (len_n1 > len_N || len_n2 > len_N) {
free(bin);
return 0;
}
memset(bin, 0, nbytes);
mpz_to_bin(n1, bin + (len_N - len_n1));
mpz_to_bin(n2, bin + (len_N + len_N - len_n2));
hash( alg, bin, nbytes, buff );
free(bin);
mpz_from_bin(buff, hash_length(alg), result);
return 1;
}
static int H_ns(mpz_t result, SRP_HashAlgorithm alg, const unsigned char *n, size_t len_n, const unsigned char *bytes, size_t len_bytes)
{
unsigned char buff[SHA512_DIGEST_LENGTH];
size_t nbytes = len_n + len_bytes;
unsigned char *bin = (unsigned char *) malloc(nbytes);
if (!bin)
return 0;
memcpy(bin, n, len_n);
memcpy(bin + len_n, bytes, len_bytes);
hash(alg, bin, nbytes, buff);
free(bin);
mpz_from_bin(buff, hash_length(alg), result);
return 1;
}
static int calculate_x(mpz_t result, SRP_HashAlgorithm alg, const unsigned char *salt, size_t salt_len, const char *username, const unsigned char *password, size_t password_len)
{
unsigned char ucp_hash[SHA512_DIGEST_LENGTH];
HashCTX ctx;
hash_init(alg, &ctx);
srp_dbg_data((char*) username, strlen(username), "Username for x: ");
srp_dbg_data((char*) password, password_len, "Password for x: ");
hash_update(alg, &ctx, username, strlen(username));
hash_update(alg, &ctx, ":", 1);
hash_update(alg, &ctx, password, password_len);
hash_final(alg, &ctx, ucp_hash);
return H_ns(result, alg, salt, salt_len, ucp_hash, hash_length(alg));
}
static void update_hash_n(SRP_HashAlgorithm alg, HashCTX *ctx, const mpz_t n)
{
size_t len = mpz_num_bytes(n);
unsigned char* n_bytes = (unsigned char *) malloc(len);
if (!n_bytes)
return;
mpz_to_bin(n, n_bytes);
hash_update(alg, ctx, n_bytes, len);
free(n_bytes);
}
static void hash_num( SRP_HashAlgorithm alg, const mpz_t n, unsigned char *dest )
{
int nbytes = mpz_num_bytes(n);
unsigned char *bin = (unsigned char *) malloc(nbytes);
if(!bin)
return;
mpz_to_bin(n, bin);
hash(alg, bin, nbytes, dest);
free(bin);
}
static void calculate_M(SRP_HashAlgorithm alg, NGConstant *ng, unsigned char *dest,
const char *I, const unsigned char *s_bytes, size_t s_len,
const mpz_t A, const mpz_t B, const unsigned char *K)
{
unsigned char H_N[SHA512_DIGEST_LENGTH];
unsigned char H_g[SHA512_DIGEST_LENGTH];
unsigned char H_I[SHA512_DIGEST_LENGTH];
unsigned char H_xor[SHA512_DIGEST_LENGTH];
HashCTX ctx;
size_t i = 0;
size_t hash_len = hash_length(alg);
hash_num(alg, ng->N, H_N);
hash_num(alg, ng->g, H_g);
hash(alg, (const unsigned char *)I, strlen(I), H_I);
for (i = 0; i < hash_len; i++ )
H_xor[i] = H_N[i] ^ H_g[i];
hash_init(alg, &ctx);
hash_update(alg, &ctx, H_xor, hash_len);
hash_update(alg, &ctx, H_I, hash_len);
hash_update(alg, &ctx, s_bytes, s_len);
update_hash_n(alg, &ctx, A);
update_hash_n(alg, &ctx, B);
hash_update(alg, &ctx, K, hash_len);
hash_final(alg, &ctx, dest);
}
static void calculate_H_AMK(SRP_HashAlgorithm alg, unsigned char *dest, const mpz_t A, const unsigned char *M, const unsigned char *K)
{
HashCTX ctx;
hash_init(alg, &ctx);
update_hash_n(alg, &ctx, A);
hash_update(alg, &ctx, M, hash_length(alg));
hash_update(alg, &ctx, K, hash_length(alg));
hash_final(alg, &ctx, dest);
}
struct srp_pcgrandom {
unsigned long long int m_state;
unsigned long long int m_inc;
}; typedef struct srp_pcgrandom srp_pcgrandom;
static unsigned long int srp_pcgrandom_next(srp_pcgrandom *r)
{
unsigned long long int oldstate = r->m_state;
r->m_state = oldstate * 6364136223846793005ULL + r->m_inc;
unsigned long int xorshifted = ((oldstate >> 18u) ^ oldstate) >> 27u;
unsigned long int rot = oldstate >> 59u;
return (xorshifted >> rot) | (xorshifted << ((-rot) & 31));
}
static void srp_pcgrandom_seed(srp_pcgrandom *r, unsigned long long int state,
unsigned long long int seq)
{
r->m_state = 0U;
r->m_inc = (seq << 1u) | 1u;
srp_pcgrandom_next(r);
r->m_state += state;
srp_pcgrandom_next(r);
}
static int fill_buff()
{
g_rand_idx = 0;
#ifdef WIN32
HCRYPTPROV wctx;
#else
FILE *fp = 0;
#endif
#ifdef WIN32
CryptAcquireContext(&wctx, NULL, NULL, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT);
CryptGenRandom(wctx, sizeof(g_rand_buff), (BYTE*) g_rand_buff);
CryptReleaseContext(wctx, 0);
return 1;
#else
fp = fopen("/dev/urandom", "r");
if (fp) {
fread(g_rand_buff, sizeof(g_rand_buff), 1, fp);
fclose(fp);
} else {
srp_pcgrandom *r = (srp_pcgrandom *) malloc(sizeof(srp_pcgrandom));
srp_pcgrandom_seed(r, time(NULL) ^ clock(), 0xda3e39cb94b95bdbULL);
size_t i = 0;
for (i = 0; i < RAND_BUFF_MAX; i++) {
g_rand_buff[i] = srp_pcgrandom_next(r);
}
}
#endif
return 1;
}
static void mpz_fill_random(mpz_t num)
{
// was call: BN_rand(num, 256, -1, 0);
if (RAND_BUFF_MAX - g_rand_idx < 32)
fill_buff();
mpz_from_bin((const unsigned char *) (&g_rand_buff[g_rand_idx]), 32, num);
g_rand_idx += 32;
}
static void init_random()
{
if (g_initialized)
return;
g_initialized = fill_buff();
}
#define srp_dbg_num(num, text) ;
/*void srp_dbg_num(mpz_t num, char * prevtext)
{
int len_num = mpz_num_bytes(num);
char *bytes_num = (char*) malloc(len_num);
mpz_to_bin(num, (unsigned char *) bytes_num);
srp_dbg_data(bytes_num, len_num, prevtext);
free(bytes_num);
}*/
/***********************************************************************************************************
*
* Exported Functions
*
***********************************************************************************************************/
void srp_create_salted_verification_key( SRP_HashAlgorithm alg,
SRP_NGType ng_type, const char *username_for_verifier,
const unsigned char *password, size_t len_password,
unsigned char **bytes_s, size_t *len_s,
unsigned char **bytes_v, size_t *len_v,
const char *n_hex, const char *g_hex )
{
mpz_t v; mpz_init(v);
mpz_t x; mpz_init(x);
NGConstant *ng = new_ng(ng_type, n_hex, g_hex);
if(!ng)
goto cleanup_and_exit;
init_random(); /* Only happens once */
if (*bytes_s == NULL) {
*len_s = 16;
if (RAND_BUFF_MAX - g_rand_idx < 16)
fill_buff();
*bytes_s = (unsigned char*)malloc(sizeof(char) * 16);
memcpy(*bytes_s, &g_rand_buff + g_rand_idx, sizeof(char) * 16);
g_rand_idx += 16;
}
if (!calculate_x(x, alg, *bytes_s, *len_s, username_for_verifier,
password, len_password))
goto cleanup_and_exit;
srp_dbg_num(x, "Server calculated x: ");
mpz_powm(v, ng->g, x, ng->N);
*len_v = mpz_num_bytes(v);
*bytes_v = (unsigned char*)malloc(*len_v);
if (!bytes_v)
goto cleanup_and_exit;
mpz_to_bin(v, *bytes_v);
cleanup_and_exit:
delete_ng( ng );
mpz_clear(v);
mpz_clear(x);
}
/* Out: bytes_B, len_B.
*
* On failure, bytes_B will be set to NULL and len_B will be set to 0
*/
struct SRPVerifier *srp_verifier_new(SRP_HashAlgorithm alg,
SRP_NGType ng_type, const char *username,
const unsigned char *bytes_s, size_t len_s,
const unsigned char *bytes_v, size_t len_v,
const unsigned char *bytes_A, size_t len_A,
const unsigned char *bytes_b, size_t len_b,
unsigned char **bytes_B, size_t *len_B,
const char *n_hex, const char *g_hex )
{
mpz_t v; mpz_init(v); mpz_from_bin(bytes_v, len_v, v);
mpz_t A; mpz_init(A); mpz_from_bin(bytes_A, len_A, A);
mpz_t u; mpz_init(u);
mpz_t B; mpz_init(B);
mpz_t S; mpz_init(S);
mpz_t b; mpz_init(b);
mpz_t k; mpz_init(k);
mpz_t tmp1; mpz_init(tmp1);
mpz_t tmp2; mpz_init(tmp2);
mpz_t tmp3; mpz_init(tmp3);
size_t ulen = strlen(username) + 1;
NGConstant *ng = new_ng(ng_type, n_hex, g_hex);
struct SRPVerifier *ver = 0;
*len_B = 0;
*bytes_B = 0;
if (!ng)
goto cleanup_and_exit;
ver = (struct SRPVerifier *) malloc( sizeof(struct SRPVerifier) );
if (!ver)
goto cleanup_and_exit;
init_random(); /* Only happens once */
ver->username = (char *) malloc(ulen);
ver->hash_alg = alg;
ver->ng = ng;
if (!ver->username) {
free(ver);
ver = 0;
goto cleanup_and_exit;
}
memcpy((char*)ver->username, username, ulen);
ver->authenticated = 0;
/* SRP-6a safety check */
mpz_mod(tmp1, A, ng->N);
if (mpz_sgn(tmp1) != 0) {
if (bytes_b) {
mpz_from_bin(bytes_b, len_b, b);
} else {
mpz_fill_random(b);
}
if (!H_nn(k, alg, ng->N, ng->N, ng->g)) {
free(ver);
ver = 0;
goto cleanup_and_exit;
}
/* B = kv + g^b */
mpz_mulm(tmp1, k, v, ng->N, tmp3);
mpz_powm(tmp2, ng->g, b, ng->N);
mpz_addm(B, tmp1, tmp2, ng->N, tmp3);
if (!H_nn(u, alg, ng->N, A, B)) {
free(ver);
ver = 0;
goto cleanup_and_exit;
}
srp_dbg_num(u, "Server calculated u: ");
/* S = (A *(v^u)) ^ b */
mpz_powm(tmp1, v, u, ng->N);
mpz_mulm(tmp2, A, tmp1, ng->N, tmp3);
mpz_powm(S, tmp2, b, ng->N);
hash_num(alg, S, ver->session_key);
calculate_M(alg, ng, ver->M, username, bytes_s, len_s, A, B, ver->session_key);
calculate_H_AMK(alg, ver->H_AMK, A, ver->M, ver->session_key);
*len_B = mpz_num_bytes(B);
*bytes_B = (unsigned char*)malloc(*len_B);
if (!*bytes_B) {
free(ver->username);
free(ver);
ver = 0;
*len_B = 0;
goto cleanup_and_exit;
}
mpz_to_bin(B, *bytes_B);
ver->bytes_B = *bytes_B;
} else {
free(ver);
ver = 0;
}
cleanup_and_exit:
mpz_clear(v);
mpz_clear(A);
mpz_clear(u);
mpz_clear(k);
mpz_clear(B);
mpz_clear(S);
mpz_clear(b);
mpz_clear(tmp1);
mpz_clear(tmp2);
mpz_clear(tmp3);
return ver;
}
void srp_verifier_delete(struct SRPVerifier *ver)
{
if (ver) {
delete_ng(ver->ng);
free(ver->username);
free(ver->bytes_B);
memset(ver, 0, sizeof(*ver));
free(ver);
}
}
int srp_verifier_is_authenticated(struct SRPVerifier *ver)
{
return ver->authenticated;
}
const char *srp_verifier_get_username(struct SRPVerifier *ver)
{
return ver->username;
}
const unsigned char *srp_verifier_get_session_key(struct SRPVerifier *ver, size_t *key_length)
{
if (key_length)
*key_length = hash_length(ver->hash_alg);
return ver->session_key;
}
size_t srp_verifier_get_session_key_length(struct SRPVerifier *ver)
{
return hash_length(ver->hash_alg);
}
/* user_M must be exactly SHA512_DIGEST_LENGTH bytes in size */
void srp_verifier_verify_session(struct SRPVerifier *ver, const unsigned char *user_M, unsigned char **bytes_HAMK)
{
if (memcmp(ver->M, user_M, hash_length(ver->hash_alg)) == 0) {
ver->authenticated = 1;
*bytes_HAMK = ver->H_AMK;
} else
*bytes_HAMK = NULL;
}
/*******************************************************************************/
struct SRPUser *srp_user_new(SRP_HashAlgorithm alg, SRP_NGType ng_type,
const char *username, const char *username_for_verifier,
const unsigned char *bytes_password, size_t len_password,
const char *n_hex, const char *g_hex)
{
struct SRPUser *usr = (struct SRPUser *) malloc(sizeof(struct SRPUser));
size_t ulen = strlen(username) + 1;
size_t uvlen = strlen(username_for_verifier) + 1;
if (!usr)
goto err_exit;
init_random(); /* Only happens once */
usr->hash_alg = alg;
usr->ng = new_ng(ng_type, n_hex, g_hex);
mpz_init(usr->a);
mpz_init(usr->A);
mpz_init(usr->S);
if (!usr->ng)
goto err_exit;
usr->username = (char*)malloc(ulen);
usr->username_verifier = (char*)malloc(uvlen);
usr->password = (unsigned char*)malloc(len_password);
usr->password_len = len_password;
if (!usr->username || !usr->password)
goto err_exit;
memcpy(usr->username, username, ulen);
memcpy(usr->username_verifier, username_for_verifier, uvlen);
memcpy(usr->password, bytes_password, len_password);
usr->authenticated = 0;
usr->bytes_A = 0;
return usr;
err_exit:
if (usr) {
mpz_clear(usr->a);
mpz_clear(usr->A);
mpz_clear(usr->S);
if (usr->ng)
delete_ng(usr->ng);
if (usr->username)
free(usr->username);
if (usr->username_verifier)
free(usr->username_verifier);
if (usr->password) {
memset(usr->password, 0, usr->password_len);
free(usr->password);
}
free(usr);
}
return 0;
}
void srp_user_delete(struct SRPUser *usr)
{
if(usr) {
mpz_clear(usr->a);
mpz_clear(usr->A);
mpz_clear(usr->S);
delete_ng(usr->ng);
memset(usr->password, 0, usr->password_len);
free(usr->username);
free(usr->username_verifier);
free(usr->password);
if (usr->bytes_A)
free(usr->bytes_A);
memset(usr, 0, sizeof(*usr));
free(usr);
}
}
int srp_user_is_authenticated(struct SRPUser *usr)
{
return usr->authenticated;
}
const char *srp_user_get_username(struct SRPUser *usr)
{
return usr->username;
}
const unsigned char* srp_user_get_session_key(struct SRPUser* usr, size_t* key_length)
{
if (key_length)
*key_length = hash_length(usr->hash_alg);
return usr->session_key;
}
size_t srp_user_get_session_key_length(struct SRPUser *usr)
{
return hash_length(usr->hash_alg);
}
/* Output: username, bytes_A, len_A */
void srp_user_start_authentication(struct SRPUser *usr, char **username,
const unsigned char *bytes_a, size_t len_a,
unsigned char **bytes_A, size_t *len_A)
{
if (bytes_a) {
mpz_from_bin(bytes_a, len_a, usr->a);
} else {
mpz_fill_random(usr->a);
}
mpz_powm(usr->A, usr->ng->g, usr->a, usr->ng->N);
*len_A = mpz_num_bytes(usr->A);
*bytes_A = (unsigned char*)malloc(*len_A);
if (!*bytes_A) {
*len_A = 0;
*bytes_A = 0;
*username = 0;
return;
}
mpz_to_bin(usr->A, *bytes_A);
usr->bytes_A = *bytes_A;
if (username)
*username = usr->username;
}
/* Output: bytes_M. Buffer length is SHA512_DIGEST_LENGTH */
void srp_user_process_challenge(struct SRPUser *usr,
const unsigned char *bytes_s, size_t len_s,
const unsigned char *bytes_B, size_t len_B,
unsigned char **bytes_M, size_t *len_M)
{
mpz_t B; mpz_init(B); mpz_from_bin(bytes_B, len_B, B);
mpz_t u; mpz_init(u);
mpz_t x; mpz_init(x);
mpz_t k; mpz_init(k);
mpz_t v; mpz_init(v);
mpz_t tmp1; mpz_init(tmp1);
mpz_t tmp2; mpz_init(tmp2);
mpz_t tmp3; mpz_init(tmp3);
mpz_t tmp4; mpz_init(tmp4);
*len_M = 0;
*bytes_M = 0;
if (!H_nn(u, usr->hash_alg, usr->ng->N, usr->A, B))
goto cleanup_and_exit;
srp_dbg_num(u, "Client calculated u: ");
if (!calculate_x(x, usr->hash_alg, bytes_s, len_s,
usr->username_verifier, usr->password, usr->password_len))
goto cleanup_and_exit;
srp_dbg_num(x, "Client calculated x: ");
if (!H_nn(k, usr->hash_alg, usr->ng->N, usr->ng->N, usr->ng->g))
goto cleanup_and_exit;
/* SRP-6a safety check */
if ( mpz_sgn(B) != 0 && mpz_sgn(u) != 0 ) {
mpz_powm(v, usr->ng->g, x, usr->ng->N);
srp_dbg_num(v, "Client calculated v: ");
/* S = (B - k*(g^x)) ^ (a + ux) */
mpz_mul(tmp1, u, x);
mpz_add(tmp2, usr->a, tmp1); /* tmp2 = (a + ux) */
mpz_powm(tmp1, usr->ng->g, x, usr->ng->N); /* tmp1 = g^x */
mpz_mulm(tmp3, k, tmp1, usr->ng->N, tmp4); /* tmp3 = k*(g^x) */
mpz_subm(tmp1, B, tmp3, usr->ng->N, tmp4); /* tmp1 = (B - K*(g^x)) */
mpz_powm(usr->S, tmp1, tmp2, usr->ng->N);
hash_num(usr->hash_alg, usr->S, usr->session_key);
calculate_M( usr->hash_alg, usr->ng, usr->M, usr->username, bytes_s, len_s, usr->A,B, usr->session_key );
calculate_H_AMK( usr->hash_alg, usr->H_AMK, usr->A, usr->M, usr->session_key );
*bytes_M = usr->M;
if (len_M)
*len_M = hash_length( usr->hash_alg );
} else {
*bytes_M = NULL;
if (len_M)
*len_M = 0;
}
cleanup_and_exit:
mpz_clear(B);
mpz_clear(u);
mpz_clear(x);
mpz_clear(k);
mpz_clear(v);
mpz_clear(tmp1);
mpz_clear(tmp2);
mpz_clear(tmp3);
mpz_clear(tmp4);
}
void srp_user_verify_session(struct SRPUser *usr, const unsigned char *bytes_HAMK)
{
if (memcmp(usr->H_AMK, bytes_HAMK, hash_length(usr->hash_alg)) == 0)
usr->authenticated = 1;
}
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