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/* $OpenBSD: auxil.c,v 1.10 2015/11/19 02:35:24 mmcc Exp $ */
/*
* The author of this code is Angelos D. Keromytis (angelos@dsl.cis.upenn.edu)
*
* This code was written by Angelos D. Keromytis in Philadelphia, PA, USA,
* in April-May 1998
*
* Copyright (C) 1998, 1999 by Angelos D. Keromytis.
*
* Permission to use, copy, and modify this software with or without fee
* is hereby granted, provided that this entire notice is included in
* all copies of any software which is or includes a copy or
* modification of this software.
*
* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTY. IN PARTICULAR, THE AUTHORS MAKES NO
* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
* MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
* PURPOSE.
*/
#include <sys/types.h>
#include <ctype.h>
#include <limits.h>
#include <regex.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <openssl/dsa.h>
#include <openssl/rsa.h>
#include "keynote.h"
#include "assertion.h"
#include "signature.h"
/*
* Get some sort of key-hash for hash table indexing purposes.
*/
static int
keynote_keyhash(void *key, int alg)
{
struct keynote_binary *bn;
unsigned int res = 0, i;
DSA *dsa;
RSA *rsa;
if (key == NULL)
return 0;
switch (alg)
{
case KEYNOTE_ALGORITHM_DSA:
dsa = (DSA *) key;
res += BN_mod_word(dsa->p, HASHTABLESIZE);
res += BN_mod_word(dsa->q, HASHTABLESIZE);
res += BN_mod_word(dsa->g, HASHTABLESIZE);
res += BN_mod_word(dsa->pub_key, HASHTABLESIZE);
return res % HASHTABLESIZE;
case KEYNOTE_ALGORITHM_RSA:
rsa = (RSA *) key;
res += BN_mod_word(rsa->n, HASHTABLESIZE);
res += BN_mod_word(rsa->e, HASHTABLESIZE);
return res % HASHTABLESIZE;
case KEYNOTE_ALGORITHM_X509: /* RSA-specific */
rsa = (RSA *) key;
res += BN_mod_word(rsa->n, HASHTABLESIZE);
res += BN_mod_word(rsa->e, HASHTABLESIZE);
return res % HASHTABLESIZE;
case KEYNOTE_ALGORITHM_BINARY:
bn = (struct keynote_binary *) key;
for (i = 0; i < bn->bn_len; i++)
res = (res + ((unsigned char) bn->bn_key[i])) % HASHTABLESIZE;
return res;
case KEYNOTE_ALGORITHM_NONE:
return keynote_stringhash(key, HASHTABLESIZE);
default:
return 0;
}
}
/*
* Return RESULT_TRUE if key appears in the action authorizers.
*/
int
keynote_in_action_authorizers(void *key, int algorithm)
{
struct keylist *kl, *kl2;
void *s;
int alg;
if (algorithm == KEYNOTE_ALGORITHM_UNSPEC)
{
kl2 = keynote_keylist_find(keynote_current_assertion->as_keylist, key);
if (kl2 == NULL)
return RESULT_FALSE; /* Shouldn't ever happen */
s = kl2->key_key;
alg = kl2->key_alg;
}
else
{
s = key;
alg = algorithm;
}
for (kl = keynote_current_session->ks_action_authorizers;
kl != NULL;
kl = kl->key_next)
if ((kl->key_alg == alg) ||
((kl->key_alg == KEYNOTE_ALGORITHM_RSA) &&
(alg == KEYNOTE_ALGORITHM_X509)) ||
((kl->key_alg == KEYNOTE_ALGORITHM_X509) &&
(alg == KEYNOTE_ALGORITHM_RSA)))
if (kn_keycompare(kl->key_key, s, alg) == RESULT_TRUE)
return RESULT_TRUE;
return RESULT_FALSE;
}
/*
* Add a key to the keylist. Return RESULT_TRUE on success, -1 (and set
* keynote_errno) otherwise. We are not supposed to make a copy of the
* argument.
*/
int
keynote_keylist_add(struct keylist **keylist, char *key)
{
struct keynote_deckey dc;
struct keylist *kl;
if (keylist == NULL)
{
keynote_errno = ERROR_MEMORY;
return -1;
}
kl = calloc(1, sizeof(struct keylist));
if (kl == NULL)
{
keynote_errno = ERROR_MEMORY;
return -1;
}
if (kn_decode_key(&dc, key, KEYNOTE_PUBLIC_KEY) != 0)
{
free(kl);
return -1;
}
kl->key_key = dc.dec_key;
kl->key_alg = dc.dec_algorithm;
kl->key_stringkey = key;
kl->key_next = *keylist;
*keylist = kl;
return RESULT_TRUE;
}
/*
* Remove an action authorizer.
*/
int
kn_remove_authorizer(int sessid, char *key)
{
struct keynote_session *ks;
struct keylist *kl, *kl2;
keynote_errno = 0;
if ((keynote_current_session == NULL) ||
(keynote_current_session->ks_id != sessid))
{
keynote_current_session = keynote_find_session(sessid);
if (keynote_current_session == NULL)
{
keynote_errno = ERROR_NOTFOUND;
return -1;
}
}
ks = keynote_current_session;
/* If no action authorizers present */
if ((kl = ks->ks_action_authorizers) == NULL)
{
keynote_errno = ERROR_NOTFOUND;
return -1;
}
/* First in list */
if (!strcmp(kl->key_stringkey, key))
{
ks->ks_action_authorizers = kl->key_next;
kl->key_next = NULL;
keynote_keylist_free(kl);
return 0;
}
for (; kl->key_next != NULL; kl = kl->key_next)
if (!strcmp(kl->key_next->key_stringkey, key))
{
kl2 = kl->key_next;
kl->key_next = kl2->key_next;
kl2->key_next = NULL;
keynote_keylist_free(kl2);
return 0;
}
keynote_errno = ERROR_NOTFOUND;
return -1;
}
/*
* Add an action authorizer.
*/
int
kn_add_authorizer(int sessid, char *key)
{
char *stringkey;
keynote_errno = 0;
if ((keynote_current_session == NULL) ||
(keynote_current_session->ks_id != sessid))
{
keynote_current_session = keynote_find_session(sessid);
if (keynote_current_session == NULL)
{
keynote_errno = ERROR_NOTFOUND;
return -1;
}
}
stringkey = strdup(key);
if (stringkey == NULL)
{
keynote_errno = ERROR_MEMORY;
return -1;
}
if (keynote_keylist_add(&(keynote_current_session->ks_action_authorizers),
stringkey) == -1)
{
free(stringkey);
return -1;
}
return 0;
}
/*
* Find a keylist entry based on the key_stringkey entry.
*/
struct keylist *
keynote_keylist_find(struct keylist *kl, char *s)
{
for (; kl != NULL; kl = kl->key_next)
if (!strcmp(kl->key_stringkey, s))
return kl;
return kl;
}
/*
* Free keylist list.
*/
void
keynote_keylist_free(struct keylist *kl)
{
struct keylist *kl2;
while (kl != NULL)
{
kl2 = kl->key_next;
free(kl->key_stringkey);
keynote_free_key(kl->key_key, kl->key_alg);
free(kl);
kl = kl2;
}
}
/*
* Free a key.
*/
void
kn_free_key(struct keynote_deckey *dc)
{
if (dc)
keynote_free_key(dc->dec_key, dc->dec_algorithm);
}
/*
* Find the num-th assertion given the authorizer. Return NULL if not found.
*/
struct assertion *
keynote_find_assertion(void *authorizer, int num, int algorithm)
{
struct assertion *as;
unsigned int h;
if (authorizer == NULL)
return NULL;
h = keynote_keyhash(authorizer, algorithm);
for (as = keynote_current_session->ks_assertion_table[h];
as != NULL;
as = as->as_next)
if ((as->as_authorizer != NULL) &&
((as->as_signeralgorithm == algorithm) ||
((as->as_signeralgorithm == KEYNOTE_ALGORITHM_RSA) &&
(algorithm == KEYNOTE_ALGORITHM_X509)) ||
((as->as_signeralgorithm == KEYNOTE_ALGORITHM_X509) &&
(algorithm == KEYNOTE_ALGORITHM_RSA))))
if (kn_keycompare(authorizer, as->as_authorizer, algorithm) ==
RESULT_TRUE)
if (num-- == 0)
return as;
return NULL;
}
/*
* Add an assertion to the hash table. Return RESULT_TRUE on success,
* ERROR_MEMORY for memory failure, ERROR_SYNTAX if some problem with
* the assertion is detected.
*/
int
keynote_add_htable(struct assertion *as, int which)
{
char *hashname;
unsigned int i;
if (as == NULL)
{
keynote_errno = ERROR_MEMORY;
return -1;
}
if (!which)
hashname = as->as_authorizer_string_s;
else
hashname = as->as_authorizer;
if (hashname == NULL)
{
keynote_errno = ERROR_SYNTAX;
return -1;
}
i = keynote_keyhash(hashname, as->as_signeralgorithm);
as->as_next = keynote_current_session->ks_assertion_table[i];
keynote_current_session->ks_assertion_table[i] = as;
return RESULT_TRUE;
}
/*
* Parse and store an assertion in the internal hash table.
* Return the result of the evaluation, if doing early evaluation.
* If an error was encountered, set keynote_errno.
*/
int
kn_add_assertion(int sessid, char *asrt, int len, int assertion_flags)
{
struct assertion *as;
keynote_errno = 0;
if ((keynote_current_session == NULL) ||
(keynote_current_session->ks_id != sessid))
{
keynote_current_session = keynote_find_session(sessid);
if (keynote_current_session == NULL)
{
keynote_errno = ERROR_NOTFOUND;
return -1;
}
}
as = keynote_parse_assertion(asrt, len, assertion_flags);
if ((as == NULL) || (keynote_errno != 0))
{
if (keynote_errno == 0)
keynote_errno = ERROR_SYNTAX;
return -1;
}
as->as_id = keynote_current_session->ks_assertioncounter++;
/* Check for wrap around...there has to be a better solution to this */
if (keynote_current_session->ks_assertioncounter < 0)
{
keynote_free_assertion(as);
keynote_errno = ERROR_SYNTAX;
return -1;
}
if (keynote_add_htable(as, 0) != RESULT_TRUE)
{
keynote_free_assertion(as);
return -1;
}
as->as_internalflags |= ASSERT_IFLAG_NEEDPROC;
return as->as_id;
}
/*
* Remove an assertion from the hash table.
*/
static int
keynote_remove_assertion(int sessid, int assertid, int deleteflag)
{
struct assertion *ht, *ht2;
int i;
if ((keynote_current_session == NULL) ||
(keynote_current_session->ks_id != sessid))
{
keynote_current_session = keynote_find_session(sessid);
if (keynote_current_session == NULL)
{
keynote_errno = ERROR_NOTFOUND;
return -1;
}
}
for (i = 0; i < HASHTABLESIZE; i++)
{
ht = keynote_current_session->ks_assertion_table[i];
if (ht == NULL)
continue;
/* If first entry in bucket */
if (ht->as_id == assertid)
{
keynote_current_session->ks_assertion_table[i] = ht->as_next;
if (deleteflag)
keynote_free_assertion(ht);
return 0;
}
for (; ht->as_next != NULL; ht = ht->as_next)
if (ht->as_next->as_id == assertid) /* Got it */
{
ht2 = ht->as_next;
ht->as_next = ht2->as_next;
if (deleteflag)
keynote_free_assertion(ht2);
return 0;
}
}
keynote_errno = ERROR_NOTFOUND;
return -1;
}
/*
* API wrapper for deleting assertions.
*/
int
kn_remove_assertion(int sessid, int assertid)
{
keynote_errno = 0;
return keynote_remove_assertion(sessid, assertid, 1);
}
/*
* Internally-used wrapper for removing but not deleting assertions.
*/
int
keynote_sremove_assertion(int sessid, int assertid)
{
return keynote_remove_assertion(sessid, assertid, 0);
}
/*
* Free an assertion structure.
*/
void
keynote_free_assertion(struct assertion *as)
{
if (as == NULL)
return;
if (as->as_buf != NULL)
free(as->as_buf);
if (as->as_signature != NULL)
free(as->as_signature);
if (as->as_env != NULL)
keynote_env_cleanup(&(as->as_env), 1);
if (as->as_keylist != NULL)
keynote_keylist_free(as->as_keylist);
if (as->as_authorizer != NULL)
keynote_free_key(as->as_authorizer, as->as_signeralgorithm);
free(as);
}
unsigned int
keynote_stringhash(char *name, unsigned int size)
{
unsigned int hash_val = 0;
unsigned int i;
if ((size == 0) || (size == 1))
return 0;
for (; *name; name++)
{
hash_val = (hash_val << 2) + *name;
if ((i = hash_val & 0x3fff) != 0)
hash_val = ((hash_val ^ (i >> 12)) & 0x3fff);
}
return hash_val % size;
}
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