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cbc.c revision 1.8
      1  1.1  cgd /* cbc.c: This file contains the encryption routines for the ed line editor */
      2  1.1  cgd /*-
      3  1.6  alm  * Copyright (c) 1993 The Regents of the University of California.
      4  1.1  cgd  * All rights reserved.
      5  1.1  cgd  *
      6  1.6  alm  * Copyright (c) 1993 Andrew Moore, Talke Studio.
      7  1.6  alm  * All rights reserved.
      8  1.1  cgd  *
      9  1.1  cgd  * Redistribution and use in source and binary forms, with or without
     10  1.1  cgd  * modification, are permitted provided that the following conditions
     11  1.1  cgd  * are met:
     12  1.1  cgd  * 1. Redistributions of source code must retain the above copyright
     13  1.1  cgd  *    notice, this list of conditions and the following disclaimer.
     14  1.1  cgd  * 2. Redistributions in binary form must reproduce the above copyright
     15  1.1  cgd  *    notice, this list of conditions and the following disclaimer in the
     16  1.1  cgd  *    documentation and/or other materials provided with the distribution.
     17  1.1  cgd  * 3. All advertising materials mentioning features or use of this software
     18  1.1  cgd  *    must display the following acknowledgement:
     19  1.1  cgd  *	This product includes software developed by the University of
     20  1.1  cgd  *	California, Berkeley and its contributors.
     21  1.1  cgd  * 4. Neither the name of the University nor the names of its contributors
     22  1.1  cgd  *    may be used to endorse or promote products derived from this software
     23  1.1  cgd  *    without specific prior written permission.
     24  1.1  cgd  *
     25  1.1  cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
     26  1.1  cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
     27  1.1  cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
     28  1.1  cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
     29  1.1  cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
     30  1.1  cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
     31  1.1  cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     32  1.1  cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     33  1.1  cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     34  1.1  cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     35  1.1  cgd  * SUCH DAMAGE.
     36  1.6  alm  *
     37  1.6  alm  *	from: @(#)bdes.c	5.5 (Berkeley) 6/27/91
     38  1.1  cgd  */
     39  1.1  cgd 
     40  1.1  cgd #ifndef lint
     41  1.8  alm static char *rcsid = "@(#)cbc.c,v 1.2 1994/02/01 00:34:36 alm Exp";
     42  1.1  cgd #endif /* not lint */
     43  1.1  cgd 
     44  1.8  alm #include <sys/types.h>
     45  1.8  alm #include <ctype.h>
     46  1.1  cgd #include <errno.h>
     47  1.1  cgd #include <pwd.h>
     48  1.1  cgd 
     49  1.3  alm #include "ed.h"
     50  1.3  alm 
     51  1.8  alm 
     52  1.1  cgd /*
     53  1.1  cgd  * Define a divisor for rand() that yields a uniform distribution in the
     54  1.1  cgd  * range 0-255.
     55  1.1  cgd  */
     56  1.1  cgd #define	RAND_DIV (((unsigned) RAND_MAX + 1) >> 8)
     57  1.1  cgd 
     58  1.1  cgd /*
     59  1.1  cgd  * BSD and System V systems offer special library calls that do
     60  1.7  alm  * block move_liness and fills, so if possible we take advantage of them
     61  1.1  cgd  */
     62  1.4  alm #define	MEMCPY(dest,src,len)	memcpy((dest),(src),(len))
     63  1.4  alm #define	MEMZERO(dest,len)	memset((dest), 0, (len))
     64  1.1  cgd 
     65  1.1  cgd /* Hide the calls to the primitive encryption routines. */
     66  1.1  cgd #define	DES_KEY(buf) \
     67  1.1  cgd 	if (des_setkey(buf)) \
     68  1.7  alm 		des_error("des_setkey");
     69  1.1  cgd #define	DES_XFORM(buf) \
     70  1.1  cgd 	if (des_cipher(buf, buf, 0L, (inverse ? -1 : 1))) \
     71  1.7  alm 		des_error("des_cipher");
     72  1.1  cgd 
     73  1.1  cgd /*
     74  1.1  cgd  * read/write - no error checking
     75  1.1  cgd  */
     76  1.1  cgd #define	READ(buf, n, fp)	fread(buf, sizeof(char), n, fp)
     77  1.1  cgd #define WRITE(buf, n, fp)	fwrite(buf, sizeof(char), n, fp)
     78  1.1  cgd 
     79  1.1  cgd /*
     80  1.1  cgd  * some things to make references easier
     81  1.1  cgd  */
     82  1.1  cgd typedef char Desbuf[8];
     83  1.1  cgd #define	CHAR(x,i)	(x[i])
     84  1.1  cgd #define	UCHAR(x,i)	(x[i])
     85  1.1  cgd #define	BUFFER(x)	(x)
     86  1.1  cgd #define	UBUFFER(x)	(x)
     87  1.1  cgd 
     88  1.1  cgd /*
     89  1.1  cgd  * global variables and related macros
     90  1.1  cgd  */
     91  1.1  cgd 
     92  1.1  cgd enum { 					/* encrypt, decrypt, authenticate */
     93  1.1  cgd 	MODE_ENCRYPT, MODE_DECRYPT, MODE_AUTHENTICATE
     94  1.1  cgd } mode = MODE_ENCRYPT;
     95  1.1  cgd 
     96  1.1  cgd Desbuf ivec;				/* initialization vector */
     97  1.1  cgd Desbuf pvec;				/* padding vector */
     98  1.1  cgd char bits[] = {				/* used to extract bits from a char */
     99  1.1  cgd 	'\200', '\100', '\040', '\020', '\010', '\004', '\002', '\001'
    100  1.1  cgd };
    101  1.1  cgd int pflag;				/* 1 to preserve parity bits */
    102  1.1  cgd 
    103  1.8  alm unsigned char des_buf[8];	/* shared buffer for get_des_char/put_des_char */
    104  1.7  alm int des_ct = 0;			/* count for get_des_char/put_des_char */
    105  1.7  alm int des_n = 0;			/* index for put_des_char/get_des_char */
    106  1.4  alm 
    107  1.4  alm 
    108  1.7  alm /* init_des_cipher: initialize DES */
    109  1.1  cgd void
    110  1.7  alm init_des_cipher()
    111  1.1  cgd {
    112  1.4  alm #ifdef DES
    113  1.1  cgd 	int i;
    114  1.1  cgd 
    115  1.4  alm 	des_ct = des_n = 0;
    116  1.4  alm 
    117  1.1  cgd 	/* initialize the initialization vctor */
    118  1.1  cgd 	MEMZERO(ivec, 8);
    119  1.1  cgd 
    120  1.1  cgd 	/* intialize the padding vector */
    121  1.1  cgd 	srand((unsigned) time((time_t *) 0));
    122  1.1  cgd 	for (i = 0; i < 8; i++)
    123  1.1  cgd 		CHAR(pvec, i) = (char) (rand()/RAND_DIV);
    124  1.4  alm #endif
    125  1.4  alm }
    126  1.4  alm 
    127  1.4  alm 
    128  1.7  alm /* get_des_char: return next char in an encrypted file */
    129  1.7  alm int
    130  1.7  alm get_des_char(fp)
    131  1.4  alm 	FILE *fp;
    132  1.4  alm {
    133  1.4  alm #ifdef DES
    134  1.4  alm 	if (des_n >= des_ct) {
    135  1.4  alm 		des_n = 0;
    136  1.7  alm 		des_ct = cbc_decode(des_buf, fp);
    137  1.4  alm 	}
    138  1.4  alm 	return (des_ct > 0) ? des_buf[des_n++] : EOF;
    139  1.4  alm #endif
    140  1.4  alm }
    141  1.4  alm 
    142  1.4  alm 
    143  1.7  alm /* put_des_char: write a char to an encrypted file; return char written */
    144  1.7  alm int
    145  1.7  alm put_des_char(c, fp)
    146  1.4  alm 	int c;
    147  1.4  alm 	FILE *fp;
    148  1.4  alm {
    149  1.4  alm #ifdef DES
    150  1.4  alm 	if (des_n == sizeof des_buf) {
    151  1.7  alm 		des_ct = cbc_encode(des_buf, des_n, fp);
    152  1.4  alm 		des_n = 0;
    153  1.4  alm 	}
    154  1.4  alm 	return (des_ct >= 0) ? (des_buf[des_n++] = c) : EOF;
    155  1.4  alm #endif
    156  1.4  alm }
    157  1.4  alm 
    158  1.4  alm 
    159  1.7  alm /* flush_des_file: flush an encrypted file's output; return status */
    160  1.7  alm int
    161  1.7  alm flush_des_file(fp)
    162  1.4  alm 	FILE *fp;
    163  1.4  alm {
    164  1.4  alm #ifdef DES
    165  1.4  alm 	if (des_n == sizeof des_buf) {
    166  1.7  alm 		des_ct = cbc_encode(des_buf, des_n, fp);
    167  1.4  alm 		des_n = 0;
    168  1.4  alm 	}
    169  1.7  alm 	return (des_ct >= 0 && cbc_encode(des_buf, des_n, fp) >= 0) ? 0 : EOF;
    170  1.4  alm #endif
    171  1.1  cgd }
    172  1.1  cgd 
    173  1.4  alm #ifdef DES
    174  1.1  cgd /*
    175  1.1  cgd  * get keyword from tty or stdin
    176  1.1  cgd  */
    177  1.7  alm int
    178  1.7  alm get_keyword()
    179  1.1  cgd {
    180  1.1  cgd 	register char *p;		/* used to obtain the key */
    181  1.1  cgd 	Desbuf msgbuf;			/* I/O buffer */
    182  1.1  cgd 
    183  1.1  cgd 	/*
    184  1.1  cgd 	 * get the key
    185  1.1  cgd 	 */
    186  1.1  cgd 	if (*(p = getpass("Enter key: "))) {
    187  1.1  cgd 
    188  1.1  cgd 		/*
    189  1.1  cgd 		 * copy it, nul-padded, into the key area
    190  1.1  cgd 		 */
    191  1.7  alm 		expand_des_key(BUFFER(msgbuf), p);
    192  1.1  cgd 		MEMZERO(p, _PASSWORD_LEN);
    193  1.7  alm 		set_des_key(msgbuf);
    194  1.1  cgd 		MEMZERO(msgbuf, sizeof msgbuf);
    195  1.1  cgd 		return 1;
    196  1.1  cgd 	}
    197  1.1  cgd 	return 0;
    198  1.1  cgd }
    199  1.1  cgd 
    200  1.2  cgd 
    201  1.1  cgd /*
    202  1.1  cgd  * print a warning message and, possibly, terminate
    203  1.1  cgd  */
    204  1.4  alm void
    205  1.7  alm des_error(s)
    206  1.1  cgd 	char *s;		/* the message */
    207  1.1  cgd {
    208  1.2  cgd 	(void)sprintf(errmsg, "%s", s ? s : strerror(errno));
    209  1.1  cgd }
    210  1.1  cgd 
    211  1.1  cgd /*
    212  1.1  cgd  * map a hex character to an integer
    213  1.1  cgd  */
    214  1.7  alm int
    215  1.7  alm hex_to_binary(c, radix)
    216  1.3  alm 	int c;			/* char to be converted */
    217  1.1  cgd 	int radix;		/* base (2 to 16) */
    218  1.1  cgd {
    219  1.1  cgd 	switch(c) {
    220  1.1  cgd 	case '0':		return(0x0);
    221  1.1  cgd 	case '1':		return(0x1);
    222  1.1  cgd 	case '2':		return(radix > 2 ? 0x2 : -1);
    223  1.1  cgd 	case '3':		return(radix > 3 ? 0x3 : -1);
    224  1.1  cgd 	case '4':		return(radix > 4 ? 0x4 : -1);
    225  1.1  cgd 	case '5':		return(radix > 5 ? 0x5 : -1);
    226  1.1  cgd 	case '6':		return(radix > 6 ? 0x6 : -1);
    227  1.1  cgd 	case '7':		return(radix > 7 ? 0x7 : -1);
    228  1.1  cgd 	case '8':		return(radix > 8 ? 0x8 : -1);
    229  1.1  cgd 	case '9':		return(radix > 9 ? 0x9 : -1);
    230  1.1  cgd 	case 'A': case 'a':	return(radix > 10 ? 0xa : -1);
    231  1.1  cgd 	case 'B': case 'b':	return(radix > 11 ? 0xb : -1);
    232  1.1  cgd 	case 'C': case 'c':	return(radix > 12 ? 0xc : -1);
    233  1.1  cgd 	case 'D': case 'd':	return(radix > 13 ? 0xd : -1);
    234  1.1  cgd 	case 'E': case 'e':	return(radix > 14 ? 0xe : -1);
    235  1.1  cgd 	case 'F': case 'f':	return(radix > 15 ? 0xf : -1);
    236  1.1  cgd 	}
    237  1.1  cgd 	/*
    238  1.1  cgd 	 * invalid character
    239  1.1  cgd 	 */
    240  1.1  cgd 	return(-1);
    241  1.1  cgd }
    242  1.1  cgd 
    243  1.1  cgd /*
    244  1.1  cgd  * convert the key to a bit pattern
    245  1.1  cgd  */
    246  1.4  alm void
    247  1.7  alm expand_des_key(obuf, ibuf)
    248  1.1  cgd 	char *obuf;			/* bit pattern */
    249  1.1  cgd 	char *ibuf;			/* the key itself */
    250  1.1  cgd {
    251  1.1  cgd 	register int i, j;		/* counter in a for loop */
    252  1.1  cgd 	int nbuf[64];			/* used for hex/key translation */
    253  1.1  cgd 
    254  1.1  cgd 	/*
    255  1.1  cgd 	 * leading '0x' or '0X' == hex key
    256  1.1  cgd 	 */
    257  1.1  cgd 	if (ibuf[0] == '0' && (ibuf[1] == 'x' || ibuf[1] == 'X')) {
    258  1.1  cgd 		ibuf = &ibuf[2];
    259  1.1  cgd 		/*
    260  1.1  cgd 		 * now translate it, bombing on any illegal hex digit
    261  1.1  cgd 		 */
    262  1.1  cgd 		for (i = 0; ibuf[i] && i < 16; i++)
    263  1.7  alm 			if ((nbuf[i] = hex_to_binary((int) ibuf[i], 16)) == -1)
    264  1.7  alm 				des_error("bad hex digit in key");
    265  1.1  cgd 		while (i < 16)
    266  1.1  cgd 			nbuf[i++] = 0;
    267  1.1  cgd 		for (i = 0; i < 8; i++)
    268  1.1  cgd 			obuf[i] =
    269  1.1  cgd 			    ((nbuf[2*i]&0xf)<<4) | (nbuf[2*i+1]&0xf);
    270  1.1  cgd 		/* preserve parity bits */
    271  1.1  cgd 		pflag = 1;
    272  1.1  cgd 		return;
    273  1.1  cgd 	}
    274  1.1  cgd 	/*
    275  1.1  cgd 	 * leading '0b' or '0B' == binary key
    276  1.1  cgd 	 */
    277  1.1  cgd 	if (ibuf[0] == '0' && (ibuf[1] == 'b' || ibuf[1] == 'B')) {
    278  1.1  cgd 		ibuf = &ibuf[2];
    279  1.1  cgd 		/*
    280  1.1  cgd 		 * now translate it, bombing on any illegal binary digit
    281  1.1  cgd 		 */
    282  1.1  cgd 		for (i = 0; ibuf[i] && i < 16; i++)
    283  1.7  alm 			if ((nbuf[i] = hex_to_binary((int) ibuf[i], 2)) == -1)
    284  1.7  alm 				des_error("bad binary digit in key");
    285  1.1  cgd 		while (i < 64)
    286  1.1  cgd 			nbuf[i++] = 0;
    287  1.1  cgd 		for (i = 0; i < 8; i++)
    288  1.1  cgd 			for (j = 0; j < 8; j++)
    289  1.1  cgd 				obuf[i] = (obuf[i]<<1)|nbuf[8*i+j];
    290  1.1  cgd 		/* preserve parity bits */
    291  1.1  cgd 		pflag = 1;
    292  1.1  cgd 		return;
    293  1.1  cgd 	}
    294  1.1  cgd 	/*
    295  1.1  cgd 	 * no special leader -- ASCII
    296  1.1  cgd 	 */
    297  1.1  cgd 	(void)strncpy(obuf, ibuf, 8);
    298  1.1  cgd }
    299  1.1  cgd 
    300  1.1  cgd /*****************
    301  1.1  cgd  * DES FUNCTIONS *
    302  1.1  cgd  *****************/
    303  1.1  cgd /*
    304  1.1  cgd  * This sets the DES key and (if you're using the deszip version)
    305  1.1  cgd  * the direction of the transformation.  This uses the Sun
    306  1.1  cgd  * to map the 64-bit key onto the 56 bits that the key schedule
    307  1.1  cgd  * generation routines use: the old way, which just uses the user-
    308  1.1  cgd  * supplied 64 bits as is, and the new way, which resets the parity
    309  1.1  cgd  * bit to be the same as the low-order bit in each character.  The
    310  1.1  cgd  * new way generates a greater variety of key schedules, since many
    311  1.1  cgd  * systems set the parity (high) bit of each character to 0, and the
    312  1.1  cgd  * DES ignores the low order bit of each character.
    313  1.1  cgd  */
    314  1.4  alm void
    315  1.7  alm set_des_key(buf)
    316  1.1  cgd 	Desbuf buf;				/* key block */
    317  1.1  cgd {
    318  1.1  cgd 	register int i, j;			/* counter in a for loop */
    319  1.1  cgd 	register int par;			/* parity counter */
    320  1.1  cgd 
    321  1.1  cgd 	/*
    322  1.1  cgd 	 * if the parity is not preserved, flip it
    323  1.1  cgd 	 */
    324  1.1  cgd 	if (!pflag) {
    325  1.1  cgd 		for (i = 0; i < 8; i++) {
    326  1.1  cgd 			par = 0;
    327  1.1  cgd 			for (j = 1; j < 8; j++)
    328  1.1  cgd 				if ((bits[j]&UCHAR(buf, i)) != 0)
    329  1.1  cgd 					par++;
    330  1.1  cgd 			if ((par&01) == 01)
    331  1.1  cgd 				UCHAR(buf, i) = UCHAR(buf, i)&0177;
    332  1.1  cgd 			else
    333  1.1  cgd 				UCHAR(buf, i) = (UCHAR(buf, i)&0177)|0200;
    334  1.1  cgd 		}
    335  1.1  cgd 	}
    336  1.1  cgd 
    337  1.1  cgd 	DES_KEY(UBUFFER(buf));
    338  1.1  cgd }
    339  1.1  cgd 
    340  1.1  cgd 
    341  1.1  cgd /*
    342  1.1  cgd  * This encrypts using the Cipher Block Chaining mode of DES
    343  1.1  cgd  */
    344  1.7  alm int
    345  1.7  alm cbc_encode(msgbuf, n, fp)
    346  1.1  cgd 	char *msgbuf;
    347  1.1  cgd 	int n;
    348  1.1  cgd 	FILE *fp;
    349  1.1  cgd {
    350  1.1  cgd 	int inverse = 0;	/* 0 to encrypt, 1 to decrypt */
    351  1.1  cgd 
    352  1.1  cgd 	/*
    353  1.1  cgd 	 * do the transformation
    354  1.1  cgd 	 */
    355  1.1  cgd 	if (n == 8) {
    356  1.1  cgd 		for (n = 0; n < 8; n++)
    357  1.1  cgd 			CHAR(msgbuf, n) ^= CHAR(ivec, n);
    358  1.1  cgd 		DES_XFORM(UBUFFER(msgbuf));
    359  1.1  cgd 		MEMCPY(BUFFER(ivec), BUFFER(msgbuf), 8);
    360  1.1  cgd 		return WRITE(BUFFER(msgbuf), 8, fp);
    361  1.1  cgd 	}
    362  1.1  cgd 	/*
    363  1.1  cgd 	 * at EOF or last block -- in either case, the last byte contains
    364  1.1  cgd 	 * the character representation of the number of bytes in it
    365  1.1  cgd 	 */
    366  1.1  cgd /*
    367  1.1  cgd 	MEMZERO(msgbuf +  n, 8 - n);
    368  1.1  cgd */
    369  1.1  cgd 	/*
    370  1.1  cgd 	 *  Pad the last block randomly
    371  1.1  cgd 	 */
    372  1.1  cgd 	(void)MEMCPY(BUFFER(msgbuf + n), BUFFER(pvec), 8 - n);
    373  1.1  cgd 	CHAR(msgbuf, 7) = n;
    374  1.1  cgd 	for (n = 0; n < 8; n++)
    375  1.1  cgd 		CHAR(msgbuf, n) ^= CHAR(ivec, n);
    376  1.1  cgd 	DES_XFORM(UBUFFER(msgbuf));
    377  1.1  cgd 	return WRITE(BUFFER(msgbuf), 8, fp);
    378  1.1  cgd }
    379  1.1  cgd 
    380  1.1  cgd /*
    381  1.1  cgd  * This decrypts using the Cipher Block Chaining mode of DES
    382  1.1  cgd  */
    383  1.7  alm int
    384  1.7  alm cbc_decode(msgbuf, fp)
    385  1.1  cgd 	char *msgbuf;		/* I/O buffer */
    386  1.1  cgd 	FILE *fp;			/* input file descriptor */
    387  1.1  cgd {
    388  1.1  cgd 	Desbuf ibuf;	/* temp buffer for initialization vector */
    389  1.1  cgd 	register int n;		/* number of bytes actually read */
    390  1.1  cgd 	register int c;		/* used to test for EOF */
    391  1.1  cgd 	int inverse = 1;	/* 0 to encrypt, 1 to decrypt */
    392  1.1  cgd 
    393  1.1  cgd 	if ((n = READ(BUFFER(msgbuf), 8, fp)) == 8) {
    394  1.1  cgd 		/*
    395  1.1  cgd 		 * do the transformation
    396  1.1  cgd 		 */
    397  1.1  cgd 		MEMCPY(BUFFER(ibuf), BUFFER(msgbuf), 8);
    398  1.1  cgd 		DES_XFORM(UBUFFER(msgbuf));
    399  1.1  cgd 		for (c = 0; c < 8; c++)
    400  1.1  cgd 			UCHAR(msgbuf, c) ^= UCHAR(ivec, c);
    401  1.1  cgd 		MEMCPY(BUFFER(ivec), BUFFER(ibuf), 8);
    402  1.1  cgd 		/*
    403  1.1  cgd 		 * if the last one, handle it specially
    404  1.1  cgd 		 */
    405  1.1  cgd 		if ((c = fgetc(fp)) == EOF) {
    406  1.1  cgd 			n = CHAR(msgbuf, 7);
    407  1.1  cgd 			if (n < 0 || n > 7) {
    408  1.7  alm 				des_error("decryption failed (block corrupted)");
    409  1.1  cgd 				return EOF;
    410  1.1  cgd 			}
    411  1.1  cgd 		} else
    412  1.1  cgd 			(void)ungetc(c, fp);
    413  1.1  cgd 		return n;
    414  1.1  cgd 	}
    415  1.1  cgd 	if (n > 0)
    416  1.7  alm 		des_error("decryption failed (incomplete block)");
    417  1.2  cgd 	else if (n < 0)
    418  1.7  alm 		des_error("cannot read file");
    419  1.1  cgd 	return EOF;
    420  1.1  cgd }
    421  1.1  cgd #endif	/* DES */
    422