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/*
* authkeys.c - routines to manage the storage of authentication keys
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdio.h>
#include "ntp_types.h"
#include "ntp_fp.h"
#include "ntp.h"
#include "ntpd.h"
#include "ntp_string.h"
#include "ntp_malloc.h"
#include "ntp_stdlib.h"
/*
* Structure to store keys in in the hash table.
*/
struct savekey {
struct savekey *next;
union {
long bogon; /* Make sure nonempty */
u_char MD5_key[32]; /* MD5 key */
} k;
keyid_t keyid; /* key identifier */
u_short flags; /* flags that wave */
u_long lifetime; /* remaining lifetime */
int keylen; /* key length */
};
#define KEY_TRUSTED 0x001 /* this key is trusted */
#define KEY_MD5 0x200 /* this is a MD5 type key */
/*
* The hash table. This is indexed by the low order bits of the
* keyid. We make this fairly big for potentially busy servers.
*/
#define HASHSIZE 64
#define HASHMASK ((HASHSIZE)-1)
#define KEYHASH(keyid) ((keyid) & HASHMASK)
struct savekey *key_hash[HASHSIZE];
u_long authkeynotfound; /* keys not found */
u_long authkeylookups; /* calls to lookup keys */
u_long authnumkeys; /* number of active keys */
u_long authkeyexpired; /* key lifetime expirations */
u_long authkeyuncached; /* cache misses */
u_long authnokey; /* calls to encrypt with no key */
u_long authencryptions; /* calls to encrypt */
u_long authdecryptions; /* calls to decrypt */
/*
* Storage for free key structures. We malloc() such things but
* never free them.
*/
struct savekey *authfreekeys;
int authnumfreekeys;
#define MEMINC 12 /* number of new free ones to get */
/*
* The key cache. We cache the last key we looked at here.
*/
keyid_t cache_keyid; /* key identifier */
u_char *cache_key; /* key pointer */
u_int cache_keylen; /* key length */
u_short cache_flags; /* flags that wave */
/*
* init_auth - initialize internal data
*/
void
init_auth(void)
{
/*
* Initialize hash table and free list
*/
memset((char *)key_hash, 0, sizeof key_hash);
}
/*
* auth_findkey - find a key in the hash table
*/
struct savekey *
auth_findkey(
keyid_t keyno
)
{
struct savekey *sk;
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid)
return (sk);
sk = sk->next;
}
return (0);
}
/*
* auth_havekey - return one if the key is known
*/
int
auth_havekey(
keyid_t keyno
)
{
struct savekey *sk;
if (keyno == 0 || (keyno == cache_keyid))
return (1);
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid)
return (1);
sk = sk->next;
}
return (0);
}
/*
* authhavekey - return one and cache the key, if known and trusted.
*/
int
authhavekey(
keyid_t keyno
)
{
struct savekey *sk;
authkeylookups++;
if (keyno == 0 || keyno == cache_keyid)
return (1);
authkeyuncached++;
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid)
break;
sk = sk->next;
}
if (sk == 0) {
authkeynotfound++;
return (0);
} else if (!(sk->flags & KEY_TRUSTED)) {
authnokey++;
return (0);
}
cache_keyid = sk->keyid;
cache_flags = sk->flags;
if (sk->flags & KEY_MD5) {
cache_key = sk->k.MD5_key;
cache_keylen = sk->keylen;
return (1);
}
return (0);
}
/*
* auth_moremem - get some more free key structures
*/
int
auth_moremem(void)
{
struct savekey *sk;
int i;
sk = (struct savekey *)calloc(MEMINC, sizeof(struct savekey));
if (sk == 0)
return (0);
for (i = MEMINC; i > 0; i--) {
sk->next = authfreekeys;
authfreekeys = sk++;
}
authnumfreekeys += MEMINC;
return (authnumfreekeys);
}
/*
* authtrust - declare a key to be trusted/untrusted
*/
void
authtrust(
keyid_t keyno,
u_long trust
)
{
struct savekey *sk;
#ifdef DEBUG
if (debug > 2)
printf("authtrust: keyid %08x life %lu\n", keyno, trust);
#endif
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid)
break;
sk = sk->next;
}
if (sk == 0 && !trust)
return;
if (sk != 0) {
if (cache_keyid == keyno) {
cache_flags = 0;
cache_keyid = 0;
}
if (trust > 0) {
sk->flags |= KEY_TRUSTED;
if (trust > 1)
sk->lifetime = current_time + trust;
else
sk->lifetime = 0;
return;
}
sk->flags &= ~KEY_TRUSTED; {
struct savekey *skp;
skp = key_hash[KEYHASH(keyno)];
if (skp == sk) {
key_hash[KEYHASH(keyno)] = sk->next;
} else {
while (skp->next != sk)
skp = skp->next;
skp->next = sk->next;
}
authnumkeys--;
sk->next = authfreekeys;
authfreekeys = sk;
authnumfreekeys++;
}
return;
}
if (authnumfreekeys == 0)
if (auth_moremem() == 0)
return;
sk = authfreekeys;
authfreekeys = sk->next;
authnumfreekeys--;
sk->keyid = keyno;
sk->flags = KEY_TRUSTED;
sk->next = key_hash[KEYHASH(keyno)];
key_hash[KEYHASH(keyno)] = sk;
authnumkeys++;
return;
}
/*
* authistrusted - determine whether a key is trusted
*/
int
authistrusted(
keyid_t keyno
)
{
struct savekey *sk;
if (keyno == cache_keyid)
return ((cache_flags & KEY_TRUSTED) != 0);
authkeyuncached++;
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid)
break;
sk = sk->next;
}
if (sk == 0) {
authkeynotfound++;
return (0);
} else if (!(sk->flags & KEY_TRUSTED)) {
authkeynotfound++;
return (0);
}
return (1);
}
void
MD5auth_setkey(
keyid_t keyno,
const u_char *key,
const int len
)
{
struct savekey *sk;
/*
* See if we already have the key. If so just stick in the
* new value.
*/
sk = key_hash[KEYHASH(keyno)];
while (sk != 0) {
if (keyno == sk->keyid) {
strncpy((char *)sk->k.MD5_key, (const char *)key,
sizeof(sk->k.MD5_key));
if ((sk->keylen = len) > sizeof(sk->k.MD5_key))
sk->keylen = sizeof(sk->k.MD5_key);
sk->flags |= KEY_MD5;
if (cache_keyid == keyno) {
cache_flags = 0;
cache_keyid = 0;
}
return;
}
sk = sk->next;
}
/*
* Need to allocate new structure. Do it.
*/
if (authnumfreekeys == 0) {
if (auth_moremem() == 0)
return;
}
sk = authfreekeys;
authfreekeys = sk->next;
authnumfreekeys--;
strncpy((char *)sk->k.MD5_key, (const char *)key,
sizeof(sk->k.MD5_key));
if ((sk->keylen = len) > sizeof(sk->k.MD5_key))
sk->keylen = sizeof(sk->k.MD5_key);
sk->keyid = keyno;
sk->flags = KEY_MD5;
sk->lifetime = 0;
sk->next = key_hash[KEYHASH(keyno)];
key_hash[KEYHASH(keyno)] = sk;
authnumkeys++;
return;
}
/*
* auth_delkeys - delete all known keys, in preparation for rereading
* the keys file (presumably)
*/
void
auth_delkeys(void)
{
struct savekey *sk;
struct savekey **skp;
int i;
for (i = 0; i < HASHSIZE; i++) {
skp = &(key_hash[i]);
sk = key_hash[i];
/*
* Leave autokey keys alone.
*/
while (sk != 0 && sk->keyid <= NTP_MAXKEY) {
/*
* Don't lose info as to which keys are trusted.
*/
if (sk->flags & KEY_TRUSTED) {
skp = &(sk->next);
memset(&sk->k, 0, sizeof(sk->k));
sk->lifetime = 0;
sk->keylen = 0;
sk = sk->next;
} else {
*skp = sk->next;
authnumkeys--;
sk->next = authfreekeys;
authfreekeys = sk;
authnumfreekeys++;
sk = *skp;
}
}
}
}
/*
* auth_agekeys - delete keys whose lifetimes have expired
*/
void
auth_agekeys(void)
{
struct savekey *sk;
struct savekey *skp;
int i;
for (i = 0; i < HASHSIZE; i++) {
sk = skp = key_hash[i];
while (sk != 0) {
skp = sk->next;
if (sk->lifetime > 0 && current_time >
sk->lifetime) {
authtrust(sk->keyid, 0);
authkeyexpired++;
}
sk = skp;
}
}
#ifdef DEBUG
if (debug)
printf("auth_agekeys: at %lu keys %lu expired %lu\n",
current_time, authnumkeys, authkeyexpired);
#endif
}
/*
* authencrypt - generate message authenticator
*
* Returns length of authenticator field, zero if key not found.
*/
int
authencrypt(
keyid_t keyno,
u_int32 *pkt,
int length
)
{
/*
* A zero key identifier means the sender has not verified
* the last message was correctly authenticated. The MAC
* consists of a single word with value zero.
*/
authencryptions++;
pkt[length / 4] = htonl(keyno);
if (keyno == 0) {
return (4);
}
if (!authhavekey(keyno))
return (0);
if (cache_flags & KEY_MD5)
return (MD5authencrypt(cache_key, pkt, length));
return (0);
}
/*
* authdecrypt - verify message authenticator
*
* Returns one if authenticator valid, zero if invalid or key not found.
*/
int
authdecrypt(
keyid_t keyno,
u_int32 *pkt,
int length,
int size
)
{
/*
* A zero key identifier means the sender has not verified
* the last message was correctly authenticated. Nevertheless,
* the authenticator itself is considered valid.
*/
authdecryptions++;
if (keyno == 0)
return (0);
if (!authhavekey(keyno) || size < 4)
return (0);
if (cache_flags & KEY_MD5)
return (MD5authdecrypt(cache_key, pkt, length, size));
return (0);
}
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