/* * salt.c - generate a random salt string for crypt() * * Written by Marek Michalkiewicz , * it is in the public domain. * * l64a was Written by J.T. Conklin . Public domain. */ #include #ident "$Id: salt.c 3489 2011-09-18 20:40:50Z nekral-guest $" #include #include #include #include #include "prototypes.h" #include "defines.h" #include "getdef.h" /* local function prototypes */ static void seedRNG (void); static /*@observer@*/const char *gensalt (size_t salt_size); #ifdef USE_SHA_CRYPT static size_t SHA_salt_size (void); static /*@observer@*/const char *SHA_salt_rounds (/*@null@*/int *prefered_rounds); #endif /* USE_SHA_CRYPT */ #ifndef HAVE_L64A static /*@observer@*/char *l64a(long value) { static char buf[8]; char *s = buf; int digit; int i; if (value < 0) { errno = EINVAL; return(NULL); } for (i = 0; value != 0 && i < 6; i++) { digit = value & 0x3f; if (digit < 2) { *s = digit + '.'; } else if (digit < 12) { *s = digit + '0' - 2; } else if (digit < 38) { *s = digit + 'A' - 12; } else { *s = digit + 'a' - 38; } value >>= 6; s++; } *s = '\0'; return(buf); } #endif /* !HAVE_L64A */ static void seedRNG (void) { struct timeval tv; static int seeded = 0; if (0 == seeded) { (void) gettimeofday (&tv, NULL); srandom (tv.tv_sec ^ tv.tv_usec ^ getpid ()); seeded = 1; } } /* * Add the salt prefix. */ #define MAGNUM(array,ch) (array)[0]=(array)[2]='$',(array)[1]=(ch),(array)[3]='\0' #ifdef USE_SHA_CRYPT /* * Return the salt size. * The size of the salt string is between 8 and 16 bytes for the SHA crypt * methods. */ static size_t SHA_salt_size (void) { double rand_size; seedRNG (); rand_size = (double) 9.0 * random () / RAND_MAX; return (size_t) (8 + rand_size); } /* Default number of rounds if not explicitly specified. */ #define ROUNDS_DEFAULT 5000 /* Minimum number of rounds. */ #define ROUNDS_MIN 1000 /* Maximum number of rounds. */ #define ROUNDS_MAX 999999999 /* * Return a salt prefix specifying the rounds number for the SHA crypt methods. */ static /*@observer@*/const char *SHA_salt_rounds (/*@null@*/int *prefered_rounds) { static char rounds_prefix[18]; /* Max size: rounds=999999999$ */ long rounds; if (NULL == prefered_rounds) { long min_rounds = getdef_long ("SHA_CRYPT_MIN_ROUNDS", -1); long max_rounds = getdef_long ("SHA_CRYPT_MAX_ROUNDS", -1); double rand_rounds; if ((-1 == min_rounds) && (-1 == max_rounds)) { return ""; } if (-1 == min_rounds) { min_rounds = max_rounds; } if (-1 == max_rounds) { max_rounds = min_rounds; } if (min_rounds > max_rounds) { max_rounds = min_rounds; } seedRNG (); rand_rounds = (double) (max_rounds-min_rounds+1.0) * random (); rand_rounds /= RAND_MAX; rounds = min_rounds + rand_rounds; } else if (0 == *prefered_rounds) { return ""; } else { rounds = *prefered_rounds; } /* Sanity checks. The libc should also check this, but this * protects against a rounds_prefix overflow. */ if (rounds < ROUNDS_MIN) { rounds = ROUNDS_MIN; } if (rounds > ROUNDS_MAX) { rounds = ROUNDS_MAX; } (void) snprintf (rounds_prefix, sizeof rounds_prefix, "rounds=%ld$", rounds); return rounds_prefix; } #endif /* USE_SHA_CRYPT */ /* * Generate salt of size salt_size. */ #define MAX_SALT_SIZE 16 #define MIN_SALT_SIZE 8 static /*@observer@*/const char *gensalt (size_t salt_size) { static char salt[32]; salt[0] = '\0'; assert (salt_size >= MIN_SALT_SIZE && salt_size <= MAX_SALT_SIZE); seedRNG (); strcat (salt, l64a (random())); do { strcat (salt, l64a (random())); } while (strlen (salt) < salt_size); salt[salt_size] = '\0'; return salt; } /* * Generate 8 base64 ASCII characters of random salt. If MD5_CRYPT_ENAB * in /etc/login.defs is "yes", the salt string will be prefixed by "$1$" * (magic) and pw_encrypt() will execute the MD5-based FreeBSD-compatible * version of crypt() instead of the standard one. * Other methods can be set with ENCRYPT_METHOD * * The method can be forced with the meth parameter. * If NULL, the method will be defined according to the MD5_CRYPT_ENAB and * ENCRYPT_METHOD login.defs variables. * * If meth is specified, an additional parameter can be provided. * * For the SHA256 and SHA512 method, this specifies the number of rounds * (if not NULL). */ /*@observer@*/const char *crypt_make_salt (/*@null@*//*@observer@*/const char *meth, /*@null@*/void *arg) { /* Max result size for the SHA methods: * +3 $5$ * +17 rounds=999999999$ * +16 salt * +1 \0 */ static char result[40]; size_t salt_len = 8; const char *method; result[0] = '\0'; if (NULL != meth) method = meth; else { method = getdef_str ("ENCRYPT_METHOD"); if (NULL == method) { method = getdef_bool ("MD5_CRYPT_ENAB") ? "MD5" : "DES"; } } if (0 == strcmp (method, "MD5")) { MAGNUM(result, '1'); #ifdef USE_SHA_CRYPT } else if (0 == strcmp (method, "SHA256")) { MAGNUM(result, '5'); strcat(result, SHA_salt_rounds((int *)arg)); salt_len = SHA_salt_size(); } else if (0 == strcmp (method, "SHA512")) { MAGNUM(result, '6'); strcat(result, SHA_salt_rounds((int *)arg)); salt_len = SHA_salt_size(); #endif /* USE_SHA_CRYPT */ } else if (0 != strcmp (method, "DES")) { fprintf (stderr, _("Invalid ENCRYPT_METHOD value: '%s'.\n" "Defaulting to DES.\n"), method); result[0] = '\0'; } /* * Concatenate a pseudo random salt. */ assert (sizeof (result) > strlen (result) + salt_len); strncat (result, gensalt (salt_len), sizeof (result) - strlen (result) - 1); return result; }