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ecdf56e7d9
Rewrote man page in mdoc format. Document -v and -p flags.
551 lines
11 KiB
C
551 lines
11 KiB
C
/*
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* Sun RPC is a product of Sun Microsystems, Inc. and is provided for
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* unrestricted use provided that this legend is included on all tape
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* media and as a part of the software program in whole or part. Users
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* may copy or modify Sun RPC without charge, but are not authorized
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* to license or distribute it to anyone else except as part of a product or
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* program developed by the user.
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*
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* SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE
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* WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE.
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*
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* Sun RPC is provided with no support and without any obligation on the
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* part of Sun Microsystems, Inc. to assist in its use, correction,
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* modification or enhancement.
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*
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* SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE
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* INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC
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* OR ANY PART THEREOF.
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*
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* In no event will Sun Microsystems, Inc. be liable for any lost revenue
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* or profits or other special, indirect and consequential damages, even if
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* Sun has been advised of the possibility of such damages.
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*
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* Sun Microsystems, Inc.
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* 2550 Garcia Avenue
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* Mountain View, California 94043
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*/
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#ifndef lint
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#if 0
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static char sccsid[] = "@(#)setkey.c 1.11 94/04/25 SMI";
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#endif
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static const char rcsid[] =
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"$Id$";
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#endif /* not lint */
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/*
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* Copyright (c) 1986 - 1991 by Sun Microsystems, Inc.
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*/
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/*
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* Do the real work of the keyserver.
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* Store secret keys. Compute common keys,
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* and use them to decrypt and encrypt DES keys.
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* Cache the common keys, so the expensive computation is avoided.
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*/
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#include <mp.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <sys/types.h>
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#include <rpc/rpc.h>
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#include <rpc/key_prot.h>
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#include <rpc/des_crypt.h>
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#include <rpc/des.h>
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#include <sys/errno.h>
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#include "keyserv.h"
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static MINT *MODULUS;
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static char *fetchsecretkey __P(( uid_t ));
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static void writecache __P(( char *, char *, des_block * ));
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static int readcache __P(( char *, char *, des_block * ));
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static void extractdeskey __P (( MINT *, des_block * ));
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static int storesecretkey __P(( uid_t, keybuf ));
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static keystatus pk_crypt __P(( uid_t, char *, netobj *, des_block *, int));
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static int nodefaultkeys = 0;
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/*
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* prohibit the nobody key on this machine k (the -d flag)
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*/
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void
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pk_nodefaultkeys()
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{
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nodefaultkeys = 1;
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}
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/*
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* Set the modulus for all our Diffie-Hellman operations
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*/
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void
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setmodulus(modx)
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char *modx;
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{
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MODULUS = xtom(modx);
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}
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/*
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* Set the secretkey key for this uid
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*/
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keystatus
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pk_setkey(uid, skey)
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uid_t uid;
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keybuf skey;
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{
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if (!storesecretkey(uid, skey)) {
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return (KEY_SYSTEMERR);
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}
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return (KEY_SUCCESS);
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}
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/*
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* Encrypt the key using the public key associated with remote_name and the
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* secret key associated with uid.
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*/
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keystatus
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pk_encrypt(uid, remote_name, remote_key, key)
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uid_t uid;
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char *remote_name;
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netobj *remote_key;
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des_block *key;
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{
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return (pk_crypt(uid, remote_name, remote_key, key, DES_ENCRYPT));
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}
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/*
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* Decrypt the key using the public key associated with remote_name and the
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* secret key associated with uid.
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*/
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keystatus
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pk_decrypt(uid, remote_name, remote_key, key)
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uid_t uid;
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char *remote_name;
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netobj *remote_key;
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des_block *key;
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{
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return (pk_crypt(uid, remote_name, remote_key, key, DES_DECRYPT));
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}
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static int store_netname __P(( uid_t, key_netstarg * ));
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static int fetch_netname __P(( uid_t, key_netstarg * ));
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keystatus
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pk_netput(uid, netstore)
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uid_t uid;
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key_netstarg *netstore;
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{
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if (!store_netname(uid, netstore)) {
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return (KEY_SYSTEMERR);
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}
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return (KEY_SUCCESS);
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}
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keystatus
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pk_netget(uid, netstore)
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uid_t uid;
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key_netstarg *netstore;
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{
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if (!fetch_netname(uid, netstore)) {
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return (KEY_SYSTEMERR);
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}
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return (KEY_SUCCESS);
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}
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/*
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* Do the work of pk_encrypt && pk_decrypt
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*/
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static keystatus
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pk_crypt(uid, remote_name, remote_key, key, mode)
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uid_t uid;
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char *remote_name;
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netobj *remote_key;
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des_block *key;
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int mode;
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{
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char *xsecret;
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char xpublic[1024];
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char xsecret_hold[1024];
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des_block deskey;
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int err;
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MINT *public;
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MINT *secret;
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MINT *common;
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char zero[8];
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xsecret = fetchsecretkey(uid);
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if (xsecret == NULL || xsecret[0] == 0) {
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memset(zero, 0, sizeof (zero));
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xsecret = xsecret_hold;
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if (nodefaultkeys)
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return (KEY_NOSECRET);
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if (!getsecretkey("nobody", xsecret, zero) || xsecret[0] == 0) {
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return (KEY_NOSECRET);
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}
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}
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if (remote_key) {
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memcpy(xpublic, remote_key->n_bytes, remote_key->n_len);
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} else {
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bzero((char *)&xpublic, sizeof(xpublic));
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if (!getpublickey(remote_name, xpublic)) {
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if (nodefaultkeys || !getpublickey("nobody", xpublic))
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return (KEY_UNKNOWN);
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}
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}
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if (!readcache(xpublic, xsecret, &deskey)) {
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public = xtom(xpublic);
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secret = xtom(xsecret);
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/* Sanity Check on public and private keys */
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if ((public == NULL) || (secret == NULL))
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return (KEY_SYSTEMERR);
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common = itom(0);
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pow(public, secret, MODULUS, common);
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extractdeskey(common, &deskey);
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writecache(xpublic, xsecret, &deskey);
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mfree(secret);
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mfree(public);
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mfree(common);
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}
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err = ecb_crypt((char *)&deskey, (char *)key, sizeof (des_block),
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DES_HW | mode);
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if (DES_FAILED(err)) {
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return (KEY_SYSTEMERR);
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}
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return (KEY_SUCCESS);
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}
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keystatus
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pk_get_conv_key(uid, xpublic, result)
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uid_t uid;
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keybuf xpublic;
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cryptkeyres *result;
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{
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char *xsecret;
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char xsecret_hold[1024];
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MINT *public;
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MINT *secret;
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MINT *common;
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char zero[8];
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xsecret = fetchsecretkey(uid);
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if (xsecret == NULL || xsecret[0] == 0) {
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memset(zero, 0, sizeof (zero));
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xsecret = xsecret_hold;
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if (nodefaultkeys)
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return (KEY_NOSECRET);
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if (!getsecretkey("nobody", xsecret, zero) ||
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xsecret[0] == 0)
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return (KEY_NOSECRET);
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}
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if (!readcache(xpublic, xsecret, &result->cryptkeyres_u.deskey)) {
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public = xtom(xpublic);
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secret = xtom(xsecret);
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/* Sanity Check on public and private keys */
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if ((public == NULL) || (secret == NULL))
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return (KEY_SYSTEMERR);
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common = itom(0);
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pow(public, secret, MODULUS, common);
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extractdeskey(common, &result->cryptkeyres_u.deskey);
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writecache(xpublic, xsecret, &result->cryptkeyres_u.deskey);
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mfree(secret);
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mfree(public);
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mfree(common);
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}
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return (KEY_SUCCESS);
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}
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/*
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* Choose middle 64 bits of the common key to use as our des key, possibly
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* overwriting the lower order bits by setting parity.
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*/
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static void
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extractdeskey(ck, deskey)
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MINT *ck;
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des_block *deskey;
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{
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MINT *a;
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short r;
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int i;
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short base = (1 << 8);
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char *k;
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a = itom(0);
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#ifdef SOLARIS_MP
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_mp_move(ck, a);
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#else
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move(ck, a);
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#endif
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for (i = 0; i < ((KEYSIZE - 64) / 2) / 8; i++) {
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sdiv(a, base, a, &r);
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}
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k = deskey->c;
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for (i = 0; i < 8; i++) {
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sdiv(a, base, a, &r);
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*k++ = r;
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}
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mfree(a);
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des_setparity((char *)deskey);
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}
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/*
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* Key storage management
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*/
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#define KEY_ONLY 0
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#define KEY_NAME 1
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struct secretkey_netname_list {
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uid_t uid;
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key_netstarg keynetdata;
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u_char sc_flag;
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struct secretkey_netname_list *next;
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};
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static struct secretkey_netname_list *g_secretkey_netname;
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/*
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* Store the keys and netname for this uid
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*/
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static int
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store_netname(uid, netstore)
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uid_t uid;
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key_netstarg *netstore;
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{
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struct secretkey_netname_list *new;
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struct secretkey_netname_list **l;
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for (l = &g_secretkey_netname; *l != NULL && (*l)->uid != uid;
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l = &(*l)->next) {
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}
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if (*l == NULL) {
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new = (struct secretkey_netname_list *)malloc(sizeof (*new));
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if (new == NULL) {
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return (0);
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}
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new->uid = uid;
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new->next = NULL;
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*l = new;
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} else {
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new = *l;
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if (new->keynetdata.st_netname)
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(void) free (new->keynetdata.st_netname);
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}
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memcpy(new->keynetdata.st_priv_key, netstore->st_priv_key,
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HEXKEYBYTES);
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memcpy(new->keynetdata.st_pub_key, netstore->st_pub_key, HEXKEYBYTES);
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if (netstore->st_netname)
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new->keynetdata.st_netname = strdup(netstore->st_netname);
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else
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new->keynetdata.st_netname = (char *)NULL;
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new->sc_flag = KEY_NAME;
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return (1);
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}
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/*
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* Fetch the keys and netname for this uid
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*/
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static int
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fetch_netname(uid, key_netst)
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uid_t uid;
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struct key_netstarg *key_netst;
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{
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struct secretkey_netname_list *l;
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for (l = g_secretkey_netname; l != NULL; l = l->next) {
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if ((l->uid == uid) && (l->sc_flag == KEY_NAME)){
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memcpy(key_netst->st_priv_key,
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l->keynetdata.st_priv_key, HEXKEYBYTES);
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memcpy(key_netst->st_pub_key,
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l->keynetdata.st_pub_key, HEXKEYBYTES);
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if (l->keynetdata.st_netname)
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key_netst->st_netname =
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strdup(l->keynetdata.st_netname);
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else
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key_netst->st_netname = NULL;
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return (1);
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}
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}
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return (0);
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}
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static char *
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fetchsecretkey(uid)
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uid_t uid;
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{
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struct secretkey_netname_list *l;
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for (l = g_secretkey_netname; l != NULL; l = l->next) {
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if (l->uid == uid) {
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return (l->keynetdata.st_priv_key);
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}
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}
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return (NULL);
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}
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/*
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* Store the secretkey for this uid
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*/
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static int
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storesecretkey(uid, key)
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uid_t uid;
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keybuf key;
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{
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struct secretkey_netname_list *new;
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struct secretkey_netname_list **l;
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for (l = &g_secretkey_netname; *l != NULL && (*l)->uid != uid;
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l = &(*l)->next) {
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}
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if (*l == NULL) {
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new = (struct secretkey_netname_list *) malloc(sizeof (*new));
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if (new == NULL) {
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return (0);
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}
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new->uid = uid;
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new->sc_flag = KEY_ONLY;
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memset(new->keynetdata.st_pub_key, 0, HEXKEYBYTES);
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new->keynetdata.st_netname = NULL;
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new->next = NULL;
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*l = new;
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} else {
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new = *l;
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}
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memcpy(new->keynetdata.st_priv_key, key,
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HEXKEYBYTES);
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return (1);
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}
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static int
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hexdigit(val)
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int val;
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{
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return ("0123456789abcdef"[val]);
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}
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void
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bin2hex(bin, hex, size)
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unsigned char *bin;
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unsigned char *hex;
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int size;
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{
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int i;
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for (i = 0; i < size; i++) {
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*hex++ = hexdigit(*bin >> 4);
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*hex++ = hexdigit(*bin++ & 0xf);
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}
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}
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static int
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hexval(dig)
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char dig;
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{
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if ('0' <= dig && dig <= '9') {
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return (dig - '0');
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} else if ('a' <= dig && dig <= 'f') {
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return (dig - 'a' + 10);
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} else if ('A' <= dig && dig <= 'F') {
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return (dig - 'A' + 10);
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} else {
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return (-1);
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}
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}
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void
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hex2bin(hex, bin, size)
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unsigned char *hex;
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unsigned char *bin;
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int size;
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{
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int i;
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for (i = 0; i < size; i++) {
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*bin = hexval(*hex++) << 4;
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*bin++ |= hexval(*hex++);
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}
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}
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/*
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* Exponential caching management
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*/
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struct cachekey_list {
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keybuf secret;
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keybuf public;
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des_block deskey;
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struct cachekey_list *next;
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};
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static struct cachekey_list *g_cachedkeys;
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/*
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* cache result of expensive multiple precision exponential operation
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*/
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static void
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writecache(pub, sec, deskey)
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char *pub;
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char *sec;
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des_block *deskey;
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{
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struct cachekey_list *new;
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new = (struct cachekey_list *) malloc(sizeof (struct cachekey_list));
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if (new == NULL) {
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return;
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}
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memcpy(new->public, pub, sizeof (keybuf));
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memcpy(new->secret, sec, sizeof (keybuf));
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new->deskey = *deskey;
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new->next = g_cachedkeys;
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g_cachedkeys = new;
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}
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/*
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* Try to find the common key in the cache
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*/
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static int
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readcache(pub, sec, deskey)
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char *pub;
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char *sec;
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des_block *deskey;
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{
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struct cachekey_list *found;
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register struct cachekey_list **l;
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#define cachehit(pub, sec, list) \
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(memcmp(pub, (list)->public, sizeof (keybuf)) == 0 && \
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memcmp(sec, (list)->secret, sizeof (keybuf)) == 0)
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for (l = &g_cachedkeys; (*l) != NULL && !cachehit(pub, sec, *l);
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l = &(*l)->next)
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;
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if ((*l) == NULL) {
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return (0);
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}
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found = *l;
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(*l) = (*l)->next;
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found->next = g_cachedkeys;
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g_cachedkeys = found;
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*deskey = found->deskey;
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return (1);
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}
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