/* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2021 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* * int lutil_passwd( * const struct berval *passwd, * const struct berval *cred, * const char **schemes ) * * Returns true if user supplied credentials (cred) matches * the stored password (passwd). * * Due to the use of the crypt(3) function * this routine is NOT thread-safe. */ #include "portable.h" #include #include #include #include #include #ifdef SLAPD_CRYPT # include # if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD ) # ifdef HAVE_SHADOW_H # include # endif # ifdef HAVE_PWD_H # include # endif # ifdef HAVE_AIX_SECURITY # include # endif # endif #endif #include #include "ldap_pvt.h" #include "lber_pvt.h" #include "lutil_md5.h" #include "lutil_sha1.h" #include "lutil.h" static const unsigned char crypt64[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz1234567890./"; #ifdef SLAPD_CRYPT static char *salt_format = NULL; static lutil_cryptfunc lutil_crypt; lutil_cryptfunc *lutil_cryptptr = lutil_crypt; #endif /* KLUDGE: * chk_fn is NULL iff name is {CLEARTEXT} * otherwise, things will break */ struct pw_scheme { struct berval name; LUTIL_PASSWD_CHK_FUNC *chk_fn; LUTIL_PASSWD_HASH_FUNC *hash_fn; }; struct pw_slist { struct pw_slist *next; struct pw_scheme s; }; /* password check routines */ #define SALT_SIZE 4 static LUTIL_PASSWD_CHK_FUNC chk_md5; static LUTIL_PASSWD_CHK_FUNC chk_smd5; static LUTIL_PASSWD_HASH_FUNC hash_smd5; static LUTIL_PASSWD_HASH_FUNC hash_md5; #ifdef LUTIL_SHA1_BYTES static LUTIL_PASSWD_CHK_FUNC chk_ssha1; static LUTIL_PASSWD_CHK_FUNC chk_sha1; static LUTIL_PASSWD_HASH_FUNC hash_sha1; static LUTIL_PASSWD_HASH_FUNC hash_ssha1; #endif #ifdef SLAPD_CRYPT static LUTIL_PASSWD_CHK_FUNC chk_crypt; static LUTIL_PASSWD_HASH_FUNC hash_crypt; #if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD ) static LUTIL_PASSWD_CHK_FUNC chk_unix; #endif #endif /* password hash routines */ #ifdef SLAPD_CLEARTEXT static LUTIL_PASSWD_HASH_FUNC hash_clear; #endif static struct pw_slist *pw_schemes; static int pw_inited; static const struct pw_scheme pw_schemes_default[] = { #ifdef LUTIL_SHA1_BYTES { BER_BVC("{SSHA}"), chk_ssha1, hash_ssha1 }, { BER_BVC("{SHA}"), chk_sha1, hash_sha1 }, #endif { BER_BVC("{SMD5}"), chk_smd5, hash_smd5 }, { BER_BVC("{MD5}"), chk_md5, hash_md5 }, #ifdef SLAPD_CRYPT { BER_BVC("{CRYPT}"), chk_crypt, hash_crypt }, # if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD ) { BER_BVC("{UNIX}"), chk_unix, NULL }, # endif #endif #ifdef SLAPD_CLEARTEXT /* pseudo scheme */ { BER_BVC("{CLEARTEXT}"), NULL, hash_clear }, #endif { BER_BVNULL, NULL, NULL } }; int lutil_passwd_add( struct berval *scheme, LUTIL_PASSWD_CHK_FUNC *chk, LUTIL_PASSWD_HASH_FUNC *hash ) { struct pw_slist *ptr; if (!pw_inited) lutil_passwd_init(); ptr = ber_memalloc( sizeof( struct pw_slist )); if (!ptr) return -1; ptr->next = pw_schemes; ptr->s.name = *scheme; ptr->s.chk_fn = chk; ptr->s.hash_fn = hash; pw_schemes = ptr; return 0; } void lutil_passwd_init() { struct pw_scheme *s; pw_inited = 1; for( s=(struct pw_scheme *)pw_schemes_default; s->name.bv_val; s++) { if ( lutil_passwd_add( &s->name, s->chk_fn, s->hash_fn ) ) break; } } void lutil_passwd_destroy() { struct pw_slist *ptr, *next; for( ptr=pw_schemes; ptr; ptr=next ) { next = ptr->next; ber_memfree( ptr ); } } static const struct pw_scheme *get_scheme( const char* scheme ) { struct pw_slist *pws; struct berval bv; if (!pw_inited) lutil_passwd_init(); bv.bv_val = strchr( scheme, '}' ); if ( !bv.bv_val ) return NULL; bv.bv_len = bv.bv_val - scheme + 1; bv.bv_val = (char *) scheme; for( pws=pw_schemes; pws; pws=pws->next ) { if ( ber_bvstrcasecmp(&bv, &pws->s.name ) == 0 ) { return &(pws->s); } } return NULL; } int lutil_passwd_scheme( const char* scheme ) { if( scheme == NULL ) { return 0; } return get_scheme(scheme) != NULL; } static int is_allowed_scheme( const char* scheme, const char** schemes ) { int i; if( schemes == NULL ) return 1; for( i=0; schemes[i] != NULL; i++ ) { if( strcasecmp( scheme, schemes[i] ) == 0 ) { return 1; } } return 0; } static struct berval *passwd_scheme( const struct pw_scheme *scheme, const struct berval * passwd, struct berval *bv, const char** allowed ) { if( !is_allowed_scheme( scheme->name.bv_val, allowed ) ) { return NULL; } if( passwd->bv_len >= scheme->name.bv_len ) { if( strncasecmp( passwd->bv_val, scheme->name.bv_val, scheme->name.bv_len ) == 0 ) { bv->bv_val = &passwd->bv_val[scheme->name.bv_len]; bv->bv_len = passwd->bv_len - scheme->name.bv_len; return bv; } } return NULL; } /* * Return 0 if creds are good. */ int lutil_passwd( const struct berval *passwd, /* stored passwd */ const struct berval *cred, /* user cred */ const char **schemes, const char **text ) { struct pw_slist *pws; if ( text ) *text = NULL; if (cred == NULL || cred->bv_len == 0 || passwd == NULL || passwd->bv_len == 0 ) { return -1; } if (!pw_inited) lutil_passwd_init(); for( pws=pw_schemes; pws; pws=pws->next ) { if( pws->s.chk_fn ) { struct berval x; struct berval *p = passwd_scheme( &(pws->s), passwd, &x, schemes ); if( p != NULL ) { return (pws->s.chk_fn)( &(pws->s.name), p, cred, text ); } } } #ifdef SLAPD_CLEARTEXT /* Do we think there is a scheme specifier here that we * didn't recognize? Assume a scheme name is at least 1 character. */ if (( passwd->bv_val[0] == '{' ) && ( ber_bvchr( passwd, '}' ) > passwd->bv_val+1 )) { return 1; } if( is_allowed_scheme("{CLEARTEXT}", schemes ) ) { return ( passwd->bv_len == cred->bv_len ) ? memcmp( passwd->bv_val, cred->bv_val, passwd->bv_len ) : 1; } #endif return 1; } int lutil_passwd_generate( struct berval *pw, ber_len_t len ) { if( len < 1 ) return -1; pw->bv_len = len; pw->bv_val = ber_memalloc( len + 1 ); if( pw->bv_val == NULL ) { return -1; } if( lutil_entropy( (unsigned char *) pw->bv_val, pw->bv_len) < 0 ) { return -1; } for( len = 0; len < pw->bv_len; len++ ) { pw->bv_val[len] = crypt64[ pw->bv_val[len] % (sizeof(crypt64)-1) ]; } pw->bv_val[len] = '\0'; return 0; } int lutil_passwd_hash( const struct berval * passwd, const char * method, struct berval *hash, const char **text ) { const struct pw_scheme *sc = get_scheme( method ); hash->bv_val = NULL; hash->bv_len = 0; if( sc == NULL ) { if( text ) *text = "scheme not recognized"; return -1; } if( ! sc->hash_fn ) { if( text ) *text = "scheme provided no hash function"; return -1; } if( text ) *text = NULL; return (sc->hash_fn)( &sc->name, passwd, hash, text ); } /* pw_string is only called when SLAPD_CRYPT is defined */ #if defined(SLAPD_CRYPT) static int pw_string( const struct berval *sc, struct berval *passwd ) { struct berval pw; pw.bv_len = sc->bv_len + passwd->bv_len; pw.bv_val = ber_memalloc( pw.bv_len + 1 ); if( pw.bv_val == NULL ) { return LUTIL_PASSWD_ERR; } AC_MEMCPY( pw.bv_val, sc->bv_val, sc->bv_len ); AC_MEMCPY( &pw.bv_val[sc->bv_len], passwd->bv_val, passwd->bv_len ); pw.bv_val[pw.bv_len] = '\0'; *passwd = pw; return LUTIL_PASSWD_OK; } #endif /* SLAPD_CRYPT */ int lutil_passwd_string64( const struct berval *sc, const struct berval *hash, struct berval *b64, const struct berval *salt ) { int rc; struct berval string; size_t b64len; if( salt ) { /* need to base64 combined string */ string.bv_len = hash->bv_len + salt->bv_len; string.bv_val = ber_memalloc( string.bv_len + 1 ); if( string.bv_val == NULL ) { return LUTIL_PASSWD_ERR; } AC_MEMCPY( string.bv_val, hash->bv_val, hash->bv_len ); AC_MEMCPY( &string.bv_val[hash->bv_len], salt->bv_val, salt->bv_len ); string.bv_val[string.bv_len] = '\0'; } else { string = *hash; } b64len = LUTIL_BASE64_ENCODE_LEN( string.bv_len ) + 1; b64->bv_len = b64len + sc->bv_len; b64->bv_val = ber_memalloc( b64->bv_len + 1 ); if( b64->bv_val == NULL ) { if( salt ) ber_memfree( string.bv_val ); return LUTIL_PASSWD_ERR; } AC_MEMCPY(b64->bv_val, sc->bv_val, sc->bv_len); rc = lutil_b64_ntop( (unsigned char *) string.bv_val, string.bv_len, &b64->bv_val[sc->bv_len], b64len ); if( salt ) ber_memfree( string.bv_val ); if( rc < 0 ) { return LUTIL_PASSWD_ERR; } /* recompute length */ b64->bv_len = sc->bv_len + rc; assert( strlen(b64->bv_val) == b64->bv_len ); return LUTIL_PASSWD_OK; } /* PASSWORD CHECK ROUTINES */ #ifdef LUTIL_SHA1_BYTES static int chk_ssha1( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { lutil_SHA1_CTX SHA1context; unsigned char SHA1digest[LUTIL_SHA1_BYTES]; int rc; unsigned char *orig_pass = NULL; size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len); /* safety check -- must have some salt */ if (decode_len <= sizeof(SHA1digest)) { return LUTIL_PASSWD_ERR; } /* decode base64 password */ orig_pass = (unsigned char *) ber_memalloc(decode_len + 1); if( orig_pass == NULL ) return LUTIL_PASSWD_ERR; rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len); /* safety check -- must have some salt */ if (rc <= (int)(sizeof(SHA1digest))) { ber_memfree(orig_pass); return LUTIL_PASSWD_ERR; } /* hash credentials with salt */ lutil_SHA1Init(&SHA1context); lutil_SHA1Update(&SHA1context, (const unsigned char *) cred->bv_val, cred->bv_len); lutil_SHA1Update(&SHA1context, (const unsigned char *) &orig_pass[sizeof(SHA1digest)], rc - sizeof(SHA1digest)); lutil_SHA1Final(SHA1digest, &SHA1context); /* compare */ rc = memcmp((char *)orig_pass, (char *)SHA1digest, sizeof(SHA1digest)); ber_memfree(orig_pass); return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK; } static int chk_sha1( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { lutil_SHA1_CTX SHA1context; unsigned char SHA1digest[LUTIL_SHA1_BYTES]; int rc; unsigned char *orig_pass = NULL; size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len); /* safety check */ if (decode_len < sizeof(SHA1digest)) { return LUTIL_PASSWD_ERR; } /* base64 un-encode password */ orig_pass = (unsigned char *) ber_memalloc(decode_len + 1); if( orig_pass == NULL ) return LUTIL_PASSWD_ERR; rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len); if( rc != sizeof(SHA1digest) ) { ber_memfree(orig_pass); return LUTIL_PASSWD_ERR; } /* hash credentials with salt */ lutil_SHA1Init(&SHA1context); lutil_SHA1Update(&SHA1context, (const unsigned char *) cred->bv_val, cred->bv_len); lutil_SHA1Final(SHA1digest, &SHA1context); /* compare */ rc = memcmp((char *)orig_pass, (char *)SHA1digest, sizeof(SHA1digest)); ber_memfree(orig_pass); return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK; } #endif static int chk_smd5( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { lutil_MD5_CTX MD5context; unsigned char MD5digest[LUTIL_MD5_BYTES]; int rc; unsigned char *orig_pass = NULL; size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len); /* safety check */ if (decode_len <= sizeof(MD5digest)) { return LUTIL_PASSWD_ERR; } /* base64 un-encode password */ orig_pass = (unsigned char *) ber_memalloc(decode_len + 1); if( orig_pass == NULL ) return LUTIL_PASSWD_ERR; rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len); if (rc <= (int)(sizeof(MD5digest))) { ber_memfree(orig_pass); return LUTIL_PASSWD_ERR; } /* hash credentials with salt */ lutil_MD5Init(&MD5context); lutil_MD5Update(&MD5context, (const unsigned char *) cred->bv_val, cred->bv_len ); lutil_MD5Update(&MD5context, &orig_pass[sizeof(MD5digest)], rc - sizeof(MD5digest)); lutil_MD5Final(MD5digest, &MD5context); /* compare */ rc = memcmp((char *)orig_pass, (char *)MD5digest, sizeof(MD5digest)); ber_memfree(orig_pass); return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK; } static int chk_md5( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { lutil_MD5_CTX MD5context; unsigned char MD5digest[LUTIL_MD5_BYTES]; int rc; unsigned char *orig_pass = NULL; size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len); /* safety check */ if (decode_len < sizeof(MD5digest)) { return LUTIL_PASSWD_ERR; } /* base64 un-encode password */ orig_pass = (unsigned char *) ber_memalloc(decode_len + 1); if( orig_pass == NULL ) return LUTIL_PASSWD_ERR; rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len); if ( rc != sizeof(MD5digest) ) { ber_memfree(orig_pass); return LUTIL_PASSWD_ERR; } /* hash credentials with salt */ lutil_MD5Init(&MD5context); lutil_MD5Update(&MD5context, (const unsigned char *) cred->bv_val, cred->bv_len ); lutil_MD5Final(MD5digest, &MD5context); /* compare */ rc = memcmp((char *)orig_pass, (char *)MD5digest, sizeof(MD5digest)); ber_memfree(orig_pass); return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK; } #ifdef SLAPD_CRYPT static int lutil_crypt( const char *key, const char *salt, char **hash ) { char *cr = crypt( key, salt ); int rc; if( cr == NULL || cr[0] == '\0' ) { /* salt must have been invalid */ rc = LUTIL_PASSWD_ERR; } else { if ( hash ) { *hash = ber_strdup( cr ); rc = LUTIL_PASSWD_OK; } else { rc = strcmp( salt, cr ) ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK; } } return rc; } static int chk_crypt( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { unsigned int i; for( i=0; ibv_len; i++) { if(cred->bv_val[i] == '\0') { return LUTIL_PASSWD_ERR; /* NUL character in password */ } } if( cred->bv_val[i] != '\0' ) { return LUTIL_PASSWD_ERR; /* cred must behave like a string */ } if( passwd->bv_len < 2 ) { return LUTIL_PASSWD_ERR; /* passwd must be at least two characters long */ } for( i=0; ibv_len; i++) { if(passwd->bv_val[i] == '\0') { return LUTIL_PASSWD_ERR; /* NUL character in password */ } } if( passwd->bv_val[i] != '\0' ) { return LUTIL_PASSWD_ERR; /* passwd must behave like a string */ } return lutil_cryptptr( cred->bv_val, passwd->bv_val, NULL ); } # if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD ) static int chk_unix( const struct berval *sc, const struct berval * passwd, const struct berval * cred, const char **text ) { unsigned int i; char *pw; for( i=0; ibv_len; i++) { if(cred->bv_val[i] == '\0') { return LUTIL_PASSWD_ERR; /* NUL character in password */ } } if( cred->bv_val[i] != '\0' ) { return LUTIL_PASSWD_ERR; /* cred must behave like a string */ } for( i=0; ibv_len; i++) { if(passwd->bv_val[i] == '\0') { return LUTIL_PASSWD_ERR; /* NUL character in password */ } } if( passwd->bv_val[i] != '\0' ) { return LUTIL_PASSWD_ERR; /* passwd must behave like a string */ } { struct passwd *pwd = getpwnam(passwd->bv_val); if(pwd == NULL) { return LUTIL_PASSWD_ERR; /* not found */ } pw = pwd->pw_passwd; } # ifdef HAVE_GETSPNAM { struct spwd *spwd = getspnam(passwd->bv_val); if(spwd != NULL) { pw = spwd->sp_pwdp; } } # endif # ifdef HAVE_AIX_SECURITY { struct userpw *upw = getuserpw(passwd->bv_val); if (upw != NULL) { pw = upw->upw_passwd; } } # endif if( pw == NULL || pw[0] == '\0' || pw[1] == '\0' ) { /* password must must be at least two characters long */ return LUTIL_PASSWD_ERR; } return lutil_cryptptr( cred->bv_val, pw, NULL ); } # endif #endif /* PASSWORD GENERATION ROUTINES */ #ifdef LUTIL_SHA1_BYTES static int hash_ssha1( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { lutil_SHA1_CTX SHA1context; unsigned char SHA1digest[LUTIL_SHA1_BYTES]; char saltdata[SALT_SIZE]; struct berval digest; struct berval salt; digest.bv_val = (char *) SHA1digest; digest.bv_len = sizeof(SHA1digest); salt.bv_val = saltdata; salt.bv_len = sizeof(saltdata); if( lutil_entropy( (unsigned char *) salt.bv_val, salt.bv_len) < 0 ) { return LUTIL_PASSWD_ERR; } lutil_SHA1Init( &SHA1context ); lutil_SHA1Update( &SHA1context, (const unsigned char *)passwd->bv_val, passwd->bv_len ); lutil_SHA1Update( &SHA1context, (const unsigned char *)salt.bv_val, salt.bv_len ); lutil_SHA1Final( SHA1digest, &SHA1context ); return lutil_passwd_string64( scheme, &digest, hash, &salt); } static int hash_sha1( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { lutil_SHA1_CTX SHA1context; unsigned char SHA1digest[LUTIL_SHA1_BYTES]; struct berval digest; digest.bv_val = (char *) SHA1digest; digest.bv_len = sizeof(SHA1digest); lutil_SHA1Init( &SHA1context ); lutil_SHA1Update( &SHA1context, (const unsigned char *)passwd->bv_val, passwd->bv_len ); lutil_SHA1Final( SHA1digest, &SHA1context ); return lutil_passwd_string64( scheme, &digest, hash, NULL); } #endif static int hash_smd5( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { lutil_MD5_CTX MD5context; unsigned char MD5digest[LUTIL_MD5_BYTES]; char saltdata[SALT_SIZE]; struct berval digest; struct berval salt; digest.bv_val = (char *) MD5digest; digest.bv_len = sizeof(MD5digest); salt.bv_val = saltdata; salt.bv_len = sizeof(saltdata); if( lutil_entropy( (unsigned char *) salt.bv_val, salt.bv_len) < 0 ) { return LUTIL_PASSWD_ERR; } lutil_MD5Init( &MD5context ); lutil_MD5Update( &MD5context, (const unsigned char *) passwd->bv_val, passwd->bv_len ); lutil_MD5Update( &MD5context, (const unsigned char *) salt.bv_val, salt.bv_len ); lutil_MD5Final( MD5digest, &MD5context ); return lutil_passwd_string64( scheme, &digest, hash, &salt ); } static int hash_md5( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { lutil_MD5_CTX MD5context; unsigned char MD5digest[LUTIL_MD5_BYTES]; struct berval digest; digest.bv_val = (char *) MD5digest; digest.bv_len = sizeof(MD5digest); lutil_MD5Init( &MD5context ); lutil_MD5Update( &MD5context, (const unsigned char *) passwd->bv_val, passwd->bv_len ); lutil_MD5Final( MD5digest, &MD5context ); return lutil_passwd_string64( scheme, &digest, hash, NULL ); ; } #ifdef SLAPD_CRYPT static int hash_crypt( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { unsigned char salt[32]; /* salt suitable for most anything */ unsigned int i; char *save; int rc; for( i=0; ibv_len; i++) { if(passwd->bv_val[i] == '\0') { return LUTIL_PASSWD_ERR; /* NUL character in password */ } } if( passwd->bv_val[i] != '\0' ) { return LUTIL_PASSWD_ERR; /* passwd must behave like a string */ } if( lutil_entropy( salt, sizeof( salt ) ) < 0 ) { return LUTIL_PASSWD_ERR; } for( i=0; i< ( sizeof(salt) - 1 ); i++ ) { salt[i] = crypt64[ salt[i] % (sizeof(crypt64)-1) ]; } salt[sizeof( salt ) - 1 ] = '\0'; if( salt_format != NULL ) { /* copy the salt we made into entropy before snprintfing it back into the salt */ char entropy[sizeof(salt)]; strcpy( entropy, (char *) salt ); snprintf( (char *) salt, sizeof(entropy), salt_format, entropy ); } rc = lutil_cryptptr( passwd->bv_val, (char *) salt, &hash->bv_val ); if ( rc != LUTIL_PASSWD_OK ) return rc; if( hash->bv_val == NULL ) return -1; hash->bv_len = strlen( hash->bv_val ); save = hash->bv_val; if( hash->bv_len == 0 ) { rc = LUTIL_PASSWD_ERR; } else { rc = pw_string( scheme, hash ); } ber_memfree( save ); return rc; } #endif int lutil_salt_format(const char *format) { #ifdef SLAPD_CRYPT ber_memfree( salt_format ); salt_format = format != NULL ? ber_strdup( format ) : NULL; #endif return 0; } #ifdef SLAPD_CLEARTEXT static int hash_clear( const struct berval *scheme, const struct berval *passwd, struct berval *hash, const char **text ) { ber_dupbv( hash, (struct berval *)passwd ); return LUTIL_PASSWD_OK; } #endif