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/*
 * Copyright (C) 2001, 2002, 2003, 2004, 2005 Free Software Foundation
 *
 * Author: Nikos Mavroyanopoulos
 *
 * This file is part of GNUTLS.
 *
 * The GNUTLS library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * as published by the Free Software Foundation; either version 2.1 of
 * the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
 * USA
 *
 */

#include <gnutls_int.h>
#include <gnutls_errors.h>
#include <auth_srp.h>
#include <gnutls_state.h>

#ifdef ENABLE_SRP

#include <gnutls_srp.h>
#include <auth_srp_passwd.h>
#include <gnutls_mpi.h>
#include <gnutls_num.h>
#include "debug.h"


/* Here functions for SRP (like g^x mod n) are defined 
 */

int _gnutls_srp_gx(opaque * text, size_t textsize, opaque ** result,
		   mpi_t g, mpi_t prime, gnutls_alloc_function galloc_func)
{
    mpi_t x, e;
    size_t result_size;

    if (_gnutls_mpi_scan(&x, text, &textsize)) {
	gnutls_assert();
	return GNUTLS_E_MPI_SCAN_FAILED;
    }

    e = _gnutls_mpi_alloc_like(prime);
    if (e == NULL) {
	gnutls_assert();
	_gnutls_mpi_release(&x);
	return GNUTLS_E_MEMORY_ERROR;
    }

    /* e = g^x mod prime (n) */
    _gnutls_mpi_powm(e, g, x, prime);
    _gnutls_mpi_release(&x);

    _gnutls_mpi_print(NULL, &result_size, e);
    if (result != NULL) {
	*result = galloc_func(result_size);
	if ((*result) == NULL)
	    return GNUTLS_E_MEMORY_ERROR;

	_gnutls_mpi_print(*result, &result_size, e);
    }

    _gnutls_mpi_release(&e);

    return result_size;

}


/****************
 * Choose a random value b and calculate B = (k* v + g^b) % N.
 * where k == SHA1(N|g)
 * Return: B and if ret_b is not NULL b.
 */
mpi_t _gnutls_calc_srp_B(mpi_t * ret_b, mpi_t g, mpi_t n, mpi_t v)
{
    mpi_t tmpB = NULL, tmpV = NULL;
    mpi_t b = NULL, B = NULL, k = NULL;
    int bits;


    /* calculate:  B = (k*v + g^b) % N 
     */
    bits = _gnutls_mpi_get_nbits(n);
    b = _gnutls_mpi_snew(bits);
    if (b == NULL) {
	gnutls_assert();
	return NULL;
    }

    tmpV = _gnutls_mpi_alloc_like(n);

    if (tmpV == NULL) {
	gnutls_assert();
	goto error;
    }

    _gnutls_mpi_randomize(b, bits, GCRY_STRONG_RANDOM);

    tmpB = _gnutls_mpi_snew(bits);
    if (tmpB == NULL) {
	gnutls_assert();
	goto error;
    }

    B = _gnutls_mpi_snew(bits);
    if (B == NULL) {
	gnutls_assert();
	goto error;
    }

    k = _gnutls_calc_srp_u(n, g, n);
    if (k == NULL) {
	gnutls_assert();
	goto error;
    }

    _gnutls_mpi_mulm(tmpV, k, v, n);
    _gnutls_mpi_powm(tmpB, g, b, n);

    _gnutls_mpi_addm(B, tmpV, tmpB, n);

    _gnutls_mpi_release(&k);
    _gnutls_mpi_release(&tmpB);
    _gnutls_mpi_release(&tmpV);

    if (ret_b)
	*ret_b = b;
    else
	_gnutls_mpi_release(&b);

    return B;

  error:
    _gnutls_mpi_release(&b);
    _gnutls_mpi_release(&B);
    _gnutls_mpi_release(&k);
    _gnutls_mpi_release(&tmpB);
    _gnutls_mpi_release(&tmpV);
    return NULL;

}

/* This calculates the SHA1(A | B)
 * A and B will be left-padded with zeros to fill n_size.
 */
mpi_t _gnutls_calc_srp_u(mpi_t A, mpi_t B, mpi_t n)
{
    size_t b_size, a_size;
    opaque *holder, hd[MAX_HASH_SIZE];
    size_t holder_size, hash_size, n_size;
    GNUTLS_HASH_HANDLE td;
    int ret;
    mpi_t res;

    /* get the size of n in bytes */
    _gnutls_mpi_print(NULL, &n_size, n);

    _gnutls_mpi_print(NULL, &a_size, A);
    _gnutls_mpi_print(NULL, &b_size, B);

    if (a_size > n_size || b_size > n_size) {
	gnutls_assert();
	return NULL;		/* internal error */
    }

    holder_size = n_size + n_size;

    holder = gnutls_calloc(1, holder_size);
    if (holder == NULL)
	return NULL;

    _gnutls_mpi_print(&holder[n_size - a_size], &a_size, A);
    _gnutls_mpi_print(&holder[n_size + n_size - b_size], &b_size, B);

    td = _gnutls_hash_init(GNUTLS_MAC_SHA1);
    if (td == NULL) {
	gnutls_free(holder);
	gnutls_assert();
	return NULL;
    }
    _gnutls_hash(td, holder, holder_size);
    _gnutls_hash_deinit(td, hd);

    /* convert the bytes of hd to integer
     */
    hash_size = 20;		/* SHA */
    ret = _gnutls_mpi_scan(&res, hd, &hash_size);
    gnutls_free(holder);

    if (ret < 0) {
	gnutls_assert();
	return NULL;
    }

    return res;
}

/* S = (A * v^u) ^ b % N 
 * this is our shared key (server premaster secret)
 */
mpi_t _gnutls_calc_srp_S1(mpi_t A, mpi_t b, mpi_t u, mpi_t v, mpi_t n)
{
    mpi_t tmp1 = NULL, tmp2 = NULL;
    mpi_t S = NULL;

    S = _gnutls_mpi_alloc_like(n);
    if (S == NULL)
	return NULL;

    tmp1 = _gnutls_mpi_alloc_like(n);
    tmp2 = _gnutls_mpi_alloc_like(n);

    if (tmp1 == NULL || tmp2 == NULL)
	goto freeall;

    _gnutls_mpi_powm(tmp1, v, u, n);
    _gnutls_mpi_mulm(tmp2, A, tmp1, n);
    _gnutls_mpi_powm(S, tmp2, b, n);

    _gnutls_mpi_release(&tmp1);
    _gnutls_mpi_release(&tmp2);

    return S;

  freeall:
    _gnutls_mpi_release(&tmp1);
    _gnutls_mpi_release(&tmp2);
    return NULL;
}

/* A = g^a % N 
 * returns A and a (which is random)
 */
mpi_t _gnutls_calc_srp_A(mpi_t * a, mpi_t g, mpi_t n)
{
    mpi_t tmpa;
    mpi_t A;
    int bits;

    bits = _gnutls_mpi_get_nbits(n);
    tmpa = _gnutls_mpi_snew(bits);
    if (tmpa == NULL) {
	gnutls_assert();
	return NULL;
    }

    _gnutls_mpi_randomize(tmpa, bits, GCRY_STRONG_RANDOM);

    A = _gnutls_mpi_snew(bits);
    if (A == NULL) {
	gnutls_assert();
	_gnutls_mpi_release(&tmpa);
	return NULL;
    }
    _gnutls_mpi_powm(A, g, tmpa, n);

    if (a != NULL)
	*a = tmpa;
    else
	_gnutls_mpi_release(&tmpa);

    return A;
}

/* generate x = SHA(s | SHA(U | ":" | p))
 * The output is exactly 20 bytes
 */
int _gnutls_calc_srp_sha(const char *username, const char *password,
			 opaque * salt, int salt_size, size_t * size,
			 void *digest)
{
    GNUTLS_HASH_HANDLE td;
    opaque res[MAX_HASH_SIZE];

    *size = 20;

    td = _gnutls_hash_init(GNUTLS_MAC_SHA1);
    if (td == NULL) {
	return GNUTLS_E_MEMORY_ERROR;
    }
    _gnutls_hash(td, username, strlen(username));
    _gnutls_hash(td, ":", 1);
    _gnutls_hash(td, password, strlen(password));

    _gnutls_hash_deinit(td, res);

    td = _gnutls_hash_init(GNUTLS_MAC_SHA1);
    if (td == NULL) {
	return GNUTLS_E_MEMORY_ERROR;
    }

    _gnutls_hash(td, salt, salt_size);
    _gnutls_hash(td, res, 20);	/* 20 bytes is the output of sha1 */

    _gnutls_hash_deinit(td, digest);

    return 0;
}

int _gnutls_calc_srp_x(char *username, char *password, opaque * salt,
		       size_t salt_size, size_t * size, void *digest)
{

    return _gnutls_calc_srp_sha(username, password, salt,
				salt_size, size, digest);
}


/* S = (B - k*g^x) ^ (a + u * x) % N
 * this is our shared key (client premaster secret)
 */
mpi_t _gnutls_calc_srp_S2(mpi_t B, mpi_t g, mpi_t x,
			  mpi_t a, mpi_t u, mpi_t n)
{
    mpi_t S = NULL, tmp1 = NULL, tmp2 = NULL;
    mpi_t tmp4 = NULL, tmp3 = NULL, k = NULL;

    S = _gnutls_mpi_alloc_like(n);
    if (S == NULL)
	return NULL;

    tmp1 = _gnutls_mpi_alloc_like(n);
    tmp2 = _gnutls_mpi_alloc_like(n);
    tmp3 = _gnutls_mpi_alloc_like(n);
    if (tmp1 == NULL || tmp2 == NULL || tmp3 == NULL) {
	goto freeall;
    }

    k = _gnutls_calc_srp_u(n, g, n);
    if (k == NULL) {
	gnutls_assert();
	goto freeall;
    }

    _gnutls_mpi_powm(tmp1, g, x, n);	/* g^x */
    _gnutls_mpi_mulm(tmp3, tmp1, k, n);	/* k*g^x mod n */
    _gnutls_mpi_subm(tmp2, B, tmp3, n);

    tmp4 = _gnutls_mpi_alloc_like(n);
    if (tmp4 == NULL)
	goto freeall;

    _gnutls_mpi_mul(tmp1, u, x);
    _gnutls_mpi_add(tmp4, a, tmp1);
    _gnutls_mpi_powm(S, tmp2, tmp4, n);

    _gnutls_mpi_release(&tmp1);
    _gnutls_mpi_release(&tmp2);
    _gnutls_mpi_release(&tmp3);
    _gnutls_mpi_release(&tmp4);
    _gnutls_mpi_release(&k);

    return S;

  freeall:
    _gnutls_mpi_release(&k);
    _gnutls_mpi_release(&tmp1);
    _gnutls_mpi_release(&tmp2);
    _gnutls_mpi_release(&tmp3);
    _gnutls_mpi_release(&tmp4);
    _gnutls_mpi_release(&S);
    return NULL;
}

/**
  * gnutls_srp_free_client_credentials - Used to free an allocated gnutls_srp_client_credentials_t structure
  * @sc: is an #gnutls_srp_client_credentials_t structure.
  *
  * This structure is complex enough to manipulate directly thus
  * this helper function is provided in order to free (deallocate) it.
  *
  **/
void gnutls_srp_free_client_credentials(gnutls_srp_client_credentials_t sc)
{
    gnutls_free(sc->username);
    gnutls_free(sc->password);
    gnutls_free(sc);
}

/**
  * gnutls_srp_allocate_client_credentials - Used to allocate an gnutls_srp_server_credentials_t structure
  * @sc: is a pointer to an #gnutls_srp_server_credentials_t structure.
  *
  * This structure is complex enough to manipulate directly thus
  * this helper function is provided in order to allocate it.
  *
  * Returns 0 on success.
  **/
int gnutls_srp_allocate_client_credentials(gnutls_srp_client_credentials_t
					   * sc)
{
    *sc = gnutls_calloc(1, sizeof(srp_client_credentials_st));

    if (*sc == NULL)
	return GNUTLS_E_MEMORY_ERROR;

    return 0;
}

/**
  * gnutls_srp_set_client_credentials - Used to set the username/password, in a gnutls_srp_client_credentials_t structure
  * @res: is an #gnutls_srp_client_credentials_t structure.
  * @username: is the user's userid
  * @password: is the user's password
  *
  * This function sets the username and password, in a gnutls_srp_client_credentials_t structure.
  * Those will be used in SRP authentication. @username and @password should be ASCII
  * strings or UTF-8 strings prepared using the "SASLprep" profile of "stringprep".
  *
  * Returns 0 on success.
  **/
int gnutls_srp_set_client_credentials(gnutls_srp_client_credentials_t res,
				      char *username, char *password)
{

    if (username == NULL || password == NULL) {
	gnutls_assert();
	return GNUTLS_E_INVALID_REQUEST;
    }

    res->username = gnutls_strdup(username);
    if (res->username == NULL)
	return GNUTLS_E_MEMORY_ERROR;

    res->password = gnutls_strdup(password);
    if (res->password == NULL) {
	gnutls_free(res->username);
	return GNUTLS_E_MEMORY_ERROR;
    }

    return 0;
}

/**
  * gnutls_srp_free_server_credentials - Used to free an allocated gnutls_srp_server_credentials_t structure
  * @sc: is an #gnutls_srp_server_credentials_t structure.
  *
  * This structure is complex enough to manipulate directly thus
  * this helper function is provided in order to free (deallocate) it.
  *
  **/
void gnutls_srp_free_server_credentials(gnutls_srp_server_credentials_t sc)
{
    gnutls_free(sc->password_file);
    gnutls_free(sc->password_conf_file);

    gnutls_free(sc);
}

/**
  * gnutls_srp_allocate_server_credentials - Used to allocate an gnutls_srp_server_credentials_t structure
  * @sc: is a pointer to an #gnutls_srp_server_credentials_t structure.
  *
  * This structure is complex enough to manipulate directly thus
  * this helper function is provided in order to allocate it.
  * 
  * Returns 0 on success.
  **/
int gnutls_srp_allocate_server_credentials(gnutls_srp_server_credentials_t
					   * sc)
{
    *sc = gnutls_calloc(1, sizeof(srp_server_cred_st));

    if (*sc == NULL)
	return GNUTLS_E_MEMORY_ERROR;

    return 0;
}

inline static int file_exists(const char *file)
{
    FILE *fd;

    fd = fopen(file, "r");
    if (fd == NULL)
	return -1;

    fclose(fd);
    return 0;
}

/**
  * gnutls_srp_set_server_credentials_file - Used to set the password files, in a gnutls_srp_server_credentials_t structure
  * @res: is an #gnutls_srp_server_credentials_t structure.
  * @password_file: is the SRP password file (tpasswd)
  * @password_conf_file: is the SRP password conf file (tpasswd.conf)
  *
  * This function sets the password files, in a gnutls_srp_server_credentials_t structure.
  * Those password files hold usernames and verifiers and will be used for SRP authentication.
  *
  * Returns 0 on success.
  *
  **/
int gnutls_srp_set_server_credentials_file(gnutls_srp_server_credentials_t
					   res, const char *password_file,
					   const char *password_conf_file)
{

    if (password_file == NULL || password_conf_file == NULL) {
	gnutls_assert();
	return GNUTLS_E_INVALID_REQUEST;
    }

    /* Check if the files can be opened */
    if (file_exists(password_file) != 0) {
	gnutls_assert();
	return GNUTLS_E_FILE_ERROR;
    }

    if (file_exists(password_conf_file) != 0) {
	gnutls_assert();
	return GNUTLS_E_FILE_ERROR;
    }

    res->password_file = gnutls_strdup(password_file);
    if (res->password_file == NULL) {
	gnutls_assert();
	return GNUTLS_E_MEMORY_ERROR;
    }

    res->password_conf_file = gnutls_strdup(password_conf_file);
    if (res->password_conf_file == NULL) {
	gnutls_assert();
	gnutls_free(res->password_file);
	res->password_file = NULL;
	return GNUTLS_E_MEMORY_ERROR;
    }

    return 0;
}


/**
  * gnutls_srp_set_server_credentials_function - Used to set a callback to retrieve the user's SRP credentials
  * @cred: is a #gnutls_srp_server_credentials_t structure.
  * @func: is the callback function
  *
  * This function can be used to set a callback to retrieve the user's SRP credentials.
  * The callback's function form is:
  * int (*callback)(gnutls_session_t, const char* username,
  *  gnutls_datum_t* salt, gnutls_datum_t *verifier, gnutls_datum_t* g,
  *  gnutls_datum_t* n);
  *
  * @username contains the actual username. 
  * The @salt, @verifier, @generator and @prime must be filled
  * in using the gnutls_malloc(). For convenience @prime and @generator 
  * may also be one of the static parameters defined in extra.h.
  *
  * In case the callback returned a negative number then gnutls will
  * assume that the username does not exist.
  *
  * In order to prevent attackers from guessing valid usernames,
  * if a user does not exist, g and n values should be filled in
  * using a random user's parameters. In that case the callback must
  * return the special value (1).
  *
  * The callback function will only be called once per handshake.
  * The callback function should return 0 on success, while
  * -1 indicates an error.
  *
  **/
void
gnutls_srp_set_server_credentials_function(gnutls_srp_server_credentials_t
					   cred,
					   gnutls_srp_server_credentials_function
					   * func)
{
    cred->pwd_callback = func;
}

/**
  * gnutls_srp_set_client_credentials_function - Used to set a callback to retrieve the username and password
  * @cred: is a #gnutls_srp_server_credentials_t structure.
  * @func: is the callback function
  *
  * This function can be used to set a callback to retrieve the username and
  * password for client SRP authentication.
  * The callback's function form is:
  * int (*callback)(gnutls_session_t, unsigned int times, char** username,
  *  char** password);
  *
  * The @username and @password must be allocated using gnutls_malloc().
  * @times will be 0 the first time called, and 1 the second.
  * @username and @password should be ASCII strings or UTF-8 strings 
  * prepared using the "SASLprep" profile of "stringprep".
  *
  * The callback function will be called once or twice per handshake.
  * The first time called, is before the ciphersuite is negotiated.
  * At that time if the callback returns a negative error code,
  * the callback will be called again if SRP has been
  * negotiated. This uses a special TLS-SRP idiom in order to avoid
  * asking the user for SRP password and username if the server does
  * not support SRP.
  * 
  * The callback should not return a negative error code the second
  * time called, since the handshake procedure will be aborted.
  *
  * The callback function should return 0 on success.
  * -1 indicates an error.
  *
  **/
void
gnutls_srp_set_client_credentials_function(gnutls_srp_client_credentials_t
					   cred,
					   gnutls_srp_client_credentials_function
					   * func)
{
    cred->get_function = func;
}


/**
  * gnutls_srp_server_get_username - This function returns the username of the peer
  * @session: is a gnutls session
  *
  * This function will return the username of the peer. This should only be
  * called in case of SRP authentication and in case of a server.
  * Returns NULL in case of an error.
  *
  **/
const char *gnutls_srp_server_get_username(gnutls_session_t session)
{
    srp_server_auth_info_t info;

    CHECK_AUTH(GNUTLS_CRD_SRP, NULL);

    info = _gnutls_get_auth_info(session);
    if (info == NULL)
	return NULL;
    return info->username;
}

/**
  * gnutls_srp_verifier - Used to calculate an SRP verifier
  * @username: is the user's name
  * @password: is the user's password
  * @salt: should be some randomly generated bytes
  * @generator: is the generator of the group
  * @prime: is the group's prime
  * @res: where the verifier will be stored.
  *
  * This function will create an SRP verifier, as specified in RFC2945.
  * The @prime and @generator should be one of the static parameters defined
  * in gnutls/extra.h or may be generated using the GCRYPT functions
  * gcry_prime_generate() and gcry_prime_group_generator().
  * The verifier will be allocated with @malloc and will be stored in @res using 
  * binary format.
  *
  **/
int gnutls_srp_verifier(const char *username, const char *password,
			const gnutls_datum_t * salt,
			const gnutls_datum_t * generator,
			const gnutls_datum_t * prime, gnutls_datum_t * res)
{
    mpi_t _n, _g;
    int ret;
    size_t digest_size = 20, size;
    opaque digest[20];

    ret = _gnutls_calc_srp_sha(username, password, salt->data,
			       salt->size, &digest_size, digest);
    if (ret < 0) {
	gnutls_assert();
	return ret;
    }

    size = prime->size;
    if (_gnutls_mpi_scan(&_n, prime->data, &size)) {
	gnutls_assert();
	return GNUTLS_E_MPI_SCAN_FAILED;
    }

    size = generator->size;
    if (_gnutls_mpi_scan(&_g, generator->data, &size)) {
	gnutls_assert();
	return GNUTLS_E_MPI_SCAN_FAILED;
    }

    ret = _gnutls_srp_gx(digest, 20, &res->data, _g, _n, malloc);
    if (ret < 0) {
	gnutls_assert();
	return ret;
    }
    res->size = ret;

    return 0;
}

#endif				/* ENABLE_SRP */