Merge pull request #361 from besser82/topic/besser82/simplyfy_libmisc_salt

Sanitize code in libmisc/salt.c
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Serge Hallyn 2021-06-23 09:18:05 -05:00 committed by GitHub
commit 2f0d14eb21
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@ -12,6 +12,7 @@
#ident "$Id$"
#include <sys/time.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
@ -19,6 +20,59 @@
#include "defines.h"
#include "getdef.h"
/* Add the salt prefix. */
#define MAGNUM(array,ch) (array)[0]=(array)[2]='$',(array)[1]=(ch),(array)[3]='\0'
#ifdef USE_BCRYPT
/* Use $2b$ as prefix for compatibility with OpenBSD's bcrypt. */
#define BCRYPTMAGNUM(array) (array)[0]=(array)[3]='$',(array)[1]='2',(array)[2]='b',(array)[4]='\0'
#define BCRYPT_SALT_SIZE 22
/* Default number of rounds if not explicitly specified. */
#define B_ROUNDS_DEFAULT 13
/* Minimum number of rounds. */
#define B_ROUNDS_MIN 4
/* Maximum number of rounds. */
#define B_ROUNDS_MAX 31
#endif /* USE_BCRYPT */
#ifdef USE_SHA_CRYPT
/* Fixed salt len for sha{256,512}crypt. */
#define SHA_CRYPT_SALT_SIZE 16
/* Default number of rounds if not explicitly specified. */
#define SHA_ROUNDS_DEFAULT 5000
/* Minimum number of rounds. */
#define SHA_ROUNDS_MIN 1000
/* Maximum number of rounds. */
#define SHA_ROUNDS_MAX 999999999
#endif
#ifdef USE_YESCRYPT
/*
* Default number of base64 characters used for the salt.
* 24 characters gives a 144 bits (18 bytes) salt. Unlike the more
* traditional 128 bits (16 bytes) salt, this 144 bits salt is always
* represented by the same number of base64 characters without padding
* issue, even with a non-standard base64 encoding scheme.
*/
#define YESCRYPT_SALT_SIZE 24
/* Default cost if not explicitly specified. */
#define Y_COST_DEFAULT 5
/* Minimum cost. */
#define Y_COST_MIN 1
/* Maximum cost. */
#define Y_COST_MAX 11
#endif
/* Fixed salt len for md5crypt. */
#define MD5_CRYPT_SALT_SIZE 8
/* Generate salt of size salt_size. */
#define MAX_SALT_SIZE 44
#define MIN_SALT_SIZE 8
/* Maximum size of the generated salt string. */
#define GENSALT_SETTING_SIZE 100
/* local function prototypes */
static void seedRNG (void);
static /*@observer@*/const char *gensalt (size_t salt_size);
@ -26,15 +80,13 @@ static /*@observer@*/const char *gensalt (size_t salt_size);
static long shadow_random (long min, long max);
#endif /* USE_SHA_CRYPT || USE_BCRYPT */
#ifdef USE_SHA_CRYPT
static /*@observer@*/const char *SHA_salt_rounds (/*@null@*/int *prefered_rounds);
static /*@observer@*/void SHA_salt_rounds_to_buf (char *buf, /*@null@*/int *prefered_rounds);
#endif /* USE_SHA_CRYPT */
#ifdef USE_BCRYPT
static /*@observer@*/const char *gensalt_bcrypt (void);
static /*@observer@*/const char *BCRYPT_salt_rounds (/*@null@*/int *prefered_rounds);
static /*@observer@*/void BCRYPT_salt_rounds_to_buf (char *buf, /*@null@*/int *prefered_rounds);
#endif /* USE_BCRYPT */
#ifdef USE_YESCRYPT
static /*@observer@*/const char *gensalt_yescrypt (void);
static /*@observer@*/const char *YESCRYPT_salt_cost (/*@null@*/int *prefered_cost);
static /*@observer@*/void YESCRYPT_salt_cost_to_buf (char *buf, /*@null@*/int *prefered_cost);
#endif /* USE_YESCRYPT */
#ifndef HAVE_L64A
@ -69,7 +121,7 @@ static /*@observer@*/char *l64a(long value)
*s = '\0';
return(buf);
return buf;
}
#endif /* !HAVE_L64A */
@ -85,15 +137,6 @@ static void seedRNG (void)
}
}
/*
* Add the salt prefix.
*/
#define MAGNUM(array,ch) (array)[0]=(array)[2]='$',(array)[1]=(ch),(array)[3]='\0'
#ifdef USE_BCRYPT
/* Use $2b$ as prefix for compatibility with OpenBSD's bcrypt. */
#define BCRYPTMAGNUM(array) (array)[0]=(array)[3]='$',(array)[1]='2',(array)[2]='b',(array)[4]='\0'
#endif /* USE_BCRYPT */
#if defined(USE_SHA_CRYPT) || defined(USE_BCRYPT)
/* It is not clear what is the maximum value of random().
* We assume 2^31-1.*/
@ -122,26 +165,21 @@ static long shadow_random (long min, long max)
#endif /* USE_SHA_CRYPT || USE_BCRYPT */
#ifdef USE_SHA_CRYPT
/* Default number of rounds if not explicitly specified. */
#define ROUNDS_DEFAULT 5000
/* Minimum number of rounds. */
#define ROUNDS_MIN 1000
/* Maximum number of rounds. */
#define ROUNDS_MAX 999999999
/*
* Return a salt prefix specifying the rounds number for the SHA crypt methods.
* Fill a salt prefix specifying the rounds number for the SHA crypt methods
* to a buffer.
*/
static /*@observer@*/const char *SHA_salt_rounds (/*@null@*/int *prefered_rounds)
static /*@observer@*/void SHA_salt_rounds_to_buf (char *buf, /*@null@*/int *prefered_rounds)
{
static char rounds_prefix[18]; /* Max size: rounds=999999999$ */
long rounds;
unsigned long rounds;
const size_t buf_begin = strlen (buf);
if (NULL == prefered_rounds) {
long min_rounds = getdef_long ("SHA_CRYPT_MIN_ROUNDS", -1);
long max_rounds = getdef_long ("SHA_CRYPT_MAX_ROUNDS", -1);
if ((-1 == min_rounds) && (-1 == max_rounds)) {
return "";
rounds = SHA_ROUNDS_DEFAULT;
}
if (-1 == min_rounds) {
@ -156,53 +194,52 @@ static /*@observer@*/const char *SHA_salt_rounds (/*@null@*/int *prefered_rounds
max_rounds = min_rounds;
}
rounds = shadow_random (min_rounds, max_rounds);
rounds = (unsigned long) shadow_random (min_rounds, max_rounds);
} else if (0 == *prefered_rounds) {
return "";
rounds = SHA_ROUNDS_DEFAULT;
} else {
rounds = *prefered_rounds;
rounds = (unsigned long) *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 < SHA_ROUNDS_MIN) {
rounds = SHA_ROUNDS_MIN;
}
if (rounds > ROUNDS_MAX) {
rounds = ROUNDS_MAX;
if (rounds > SHA_ROUNDS_MAX) {
rounds = SHA_ROUNDS_MAX;
}
(void) snprintf (rounds_prefix, sizeof rounds_prefix,
"rounds=%ld$", rounds);
/* Nothing to do here if SHA_ROUNDS_DEFAULT is used. */
if (rounds == SHA_ROUNDS_DEFAULT) {
return;
}
return rounds_prefix;
/* Check if the result buffer is long enough. */
assert (GENSALT_SETTING_SIZE > buf_begin + 17);
(void) snprintf (buf + buf_begin, 18, "rounds=%lu$", rounds);
}
#endif /* USE_SHA_CRYPT */
#ifdef USE_BCRYPT
/* Default number of rounds if not explicitly specified. */
#define B_ROUNDS_DEFAULT 13
/* Minimum number of rounds. */
#define B_ROUNDS_MIN 4
/* Maximum number of rounds. */
#define B_ROUNDS_MAX 31
/*
* Return a salt prefix specifying the rounds number for the BCRYPT method.
* Fill a salt prefix specifying the rounds number for the BCRYPT method
* to a buffer.
*/
static /*@observer@*/const char *BCRYPT_salt_rounds (/*@null@*/int *prefered_rounds)
static /*@observer@*/void BCRYPT_salt_rounds_to_buf (char *buf, /*@null@*/int *prefered_rounds)
{
static char rounds_prefix[4]; /* Max size: 31$ */
long rounds;
unsigned long rounds;
const size_t buf_begin = strlen (buf);
if (NULL == prefered_rounds) {
long min_rounds = getdef_long ("BCRYPT_MIN_ROUNDS", -1);
long max_rounds = getdef_long ("BCRYPT_MAX_ROUNDS", -1);
if (((-1 == min_rounds) && (-1 == max_rounds)) || (0 == *prefered_rounds)) {
if ((-1 == min_rounds) && (-1 == max_rounds)) {
rounds = B_ROUNDS_DEFAULT;
}
else {
} else {
if (-1 == min_rounds) {
min_rounds = max_rounds;
}
@ -215,137 +252,84 @@ static /*@observer@*/const char *BCRYPT_salt_rounds (/*@null@*/int *prefered_rou
max_rounds = min_rounds;
}
rounds = shadow_random (min_rounds, max_rounds);
rounds = (unsigned long) shadow_random (min_rounds, max_rounds);
}
} else if (0 == *prefered_rounds) {
rounds = B_ROUNDS_DEFAULT;
} else {
rounds = *prefered_rounds;
rounds = (unsigned long) *prefered_rounds;
}
/*
* Sanity checks.
* Use 19 as an upper bound for now,
* because musl doesn't allow rounds >= 20.
*/
/* Sanity checks. */
if (rounds < B_ROUNDS_MIN) {
rounds = B_ROUNDS_MIN;
}
/*
* Use 19 as an upper bound for now,
* because musl doesn't allow rounds >= 20.
*/
if (rounds > 19) {
/* rounds = B_ROUNDS_MAX; */
rounds = 19;
}
(void) snprintf (rounds_prefix, sizeof rounds_prefix,
"%2.2ld$", rounds);
/* Check if the result buffer is long enough. */
assert (GENSALT_SETTING_SIZE > buf_begin + 3);
return rounds_prefix;
}
#define BCRYPT_SALT_SIZE 22
/*
* Generate a 22 character salt string for bcrypt.
*/
static /*@observer@*/const char *gensalt_bcrypt (void)
{
static char salt[32];
salt[0] = '\0';
seedRNG ();
strcat (salt, l64a (random()));
do {
strcat (salt, l64a (random()));
} while (strlen (salt) < BCRYPT_SALT_SIZE);
salt[BCRYPT_SALT_SIZE] = '\0';
return salt;
(void) snprintf (buf + buf_begin, 4, "%2.2lu$", rounds);
}
#endif /* USE_BCRYPT */
#ifdef USE_YESCRYPT
/* Default cost if not explicitly specified. */
#define Y_COST_DEFAULT 5
/* Minimum cost. */
#define Y_COST_MIN 1
/* Maximum cost. */
#define Y_COST_MAX 11
/*
* Return a salt prefix specifying the cost for the YESCRYPT method.
* Fill a salt prefix specifying the cost for the YESCRYPT method
* to a buffer.
*/
static /*@observer@*/const char *YESCRYPT_salt_cost (/*@null@*/int *prefered_cost)
static /*@observer@*/void YESCRYPT_salt_cost_to_buf (char *buf, /*@null@*/int *prefered_cost)
{
static char cost_prefix[5];
long cost;
unsigned long cost;
const size_t buf_begin = strlen (buf);
if (NULL == prefered_cost) {
cost = getdef_num ("YESCRYPT_COST_FACTOR", Y_COST_DEFAULT);
} else if (0 == *prefered_cost) {
cost = Y_COST_DEFAULT;
} else {
cost = *prefered_cost;
cost = (unsigned long) *prefered_cost;
}
/* Sanity checks. */
if (cost < Y_COST_MIN) {
cost = Y_COST_MIN;
}
if (cost > Y_COST_MAX) {
cost = Y_COST_MAX;
}
cost_prefix[0] = 'j';
/* Check if the result buffer is long enough. */
assert (GENSALT_SETTING_SIZE > buf_begin + 3);
buf[buf_begin + 0] = 'j';
if (cost < 3) {
cost_prefix[1] = 0x36 + cost;
buf[buf_begin + 1] = 0x36 + cost;
} else if (cost < 6) {
cost_prefix[1] = 0x34 + cost;
buf[buf_begin + 1] = 0x34 + cost;
} else {
cost_prefix[1] = 0x3b + cost;
buf[buf_begin + 1] = 0x3b + cost;
}
cost_prefix[2] = cost >= 3 ? 'T' : '5';
cost_prefix[3] = '$';
cost_prefix[4] = 0;
return cost_prefix;
}
/*
* Default number of base64 characters used for the salt.
* 24 characters gives a 144 bits (18 bytes) salt. Unlike the more
* traditional 128 bits (16 bytes) salt, this 144 bits salt is always
* represented by the same number of base64 characters without padding
* issue, even with a non-standard base64 encoding scheme.
*/
#define YESCRYPT_SALT_SIZE 24
/*
* Generate a 22 character salt string for yescrypt.
*/
static /*@observer@*/const char *gensalt_yescrypt (void)
{
static char salt[32];
salt[0] = '\0';
seedRNG ();
strcat (salt, l64a (random()));
do {
strcat (salt, l64a (random()));
} while (strlen (salt) < YESCRYPT_SALT_SIZE);
salt[YESCRYPT_SALT_SIZE] = '\0';
return salt;
buf[buf_begin + 2] = cost >= 3 ? 'T' : '5';
buf[buf_begin + 3] = '$';
buf[buf_begin + 4] = '\0';
}
#endif /* USE_YESCRYPT */
/*
* 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];
static char salt[MAX_SALT_SIZE + 6];
salt[0] = '\0';
memset (salt, '\0', MAX_SALT_SIZE + 6);
assert (salt_size >= MIN_SALT_SIZE &&
salt_size <= MAX_SALT_SIZE);
@ -368,8 +352,9 @@ static /*@observer@*/const char *gensalt (size_t salt_size)
* 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 NULL, the method will be defined according to the ENCRYPT_METHOD
* variable, and if not set according to the MD5_CRYPT_ENAB variable,
* which can both be set inside the login.defs file.
*
* If meth is specified, an additional parameter can be provided.
* * For the SHA256 and SHA512 method, this specifies the number of rounds
@ -378,17 +363,11 @@ static /*@observer@*/const char *gensalt (size_t salt_size)
*/
/*@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;
static char result[GENSALT_SETTING_SIZE];
size_t salt_len = MAX_SALT_SIZE;
const char *method;
result[0] = '\0';
memset (result, '\0', GENSALT_SETTING_SIZE);
if (NULL != meth)
method = meth;
@ -401,61 +380,44 @@ static /*@observer@*/const char *gensalt (size_t salt_size)
if (0 == strcmp (method, "MD5")) {
MAGNUM(result, '1');
salt_len = MD5_CRYPT_SALT_SIZE;
#ifdef USE_BCRYPT
} else if (0 == strcmp (method, "BCRYPT")) {
BCRYPTMAGNUM(result);
strcat(result, BCRYPT_salt_rounds((int *)arg));
salt_len = BCRYPT_SALT_SIZE;
BCRYPT_salt_rounds_to_buf (result, (int *) arg);
#endif /* USE_BCRYPT */
#ifdef USE_YESCRYPT
} else if (0 == strcmp (method, "YESCRYPT")) {
MAGNUM(result, 'y');
strcat(result, YESCRYPT_salt_cost((int *)arg));
salt_len = YESCRYPT_SALT_SIZE;
YESCRYPT_salt_cost_to_buf (result, (int *) arg);
#endif /* USE_YESCRYPT */
#ifdef USE_SHA_CRYPT
} else if (0 == strcmp (method, "SHA256")) {
MAGNUM(result, '5');
strcat(result, SHA_salt_rounds((int *)arg));
salt_len = (size_t) shadow_random (8, 16);
salt_len = SHA_CRYPT_SALT_SIZE;
SHA_salt_rounds_to_buf (result, (int *) arg);
} else if (0 == strcmp (method, "SHA512")) {
MAGNUM(result, '6');
strcat(result, SHA_salt_rounds((int *)arg));
salt_len = (size_t) shadow_random (8, 16);
salt_len = SHA_CRYPT_SALT_SIZE;
SHA_salt_rounds_to_buf (result, (int *) arg);
#endif /* USE_SHA_CRYPT */
} else if (0 != strcmp (method, "DES")) {
fprintf (shadow_logfd,
_("Invalid ENCRYPT_METHOD value: '%s'.\n"
"Defaulting to DES.\n"),
method);
result[0] = '\0';
salt_len = MAX_SALT_SIZE;
memset (result, '\0', GENSALT_SETTING_SIZE);
}
/*
* Concatenate a pseudo random salt.
*/
assert (sizeof (result) > strlen (result) + salt_len);
#ifdef USE_BCRYPT
if (0 == strcmp (method, "BCRYPT")) {
strncat (result, gensalt_bcrypt (),
sizeof (result) - strlen (result) - 1);
return result;
} else {
#endif /* USE_BCRYPT */
#ifdef USE_YESCRYPT
if (0 == strcmp (method, "YESCRYPT")) {
strncat (result, gensalt_yescrypt (),
sizeof (result) - strlen (result) - 1);
return result;
} else {
#endif /* USE_YESCRYPT */
/* Check if the result buffer is long enough. */
assert (GENSALT_SETTING_SIZE > strlen (result) + salt_len);
/* Concatenate a pseudo random salt. */
strncat (result, gensalt (salt_len),
sizeof (result) - strlen (result) - 1);
#ifdef USE_YESCRYPT
}
#endif /* USE_YESCRYPT */
#ifdef USE_BCRYPT
}
#endif /* USE_BCRYPT */
GENSALT_SETTING_SIZE - strlen (result) - 1);
return result;
}