xref: /illumos-gate/usr/src/cmd/cmd-crypto/decrypt/decrypt.c (revision 1c9bd843ebc00801cc418156a3893362a1dc872e)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /* Portions Copyright 2005 Richard Lowe */
22 /*
23  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 /*
30  * decrypt.c
31  *
32  * Implements encrypt(1) and decrypt(1) commands
33  *
34  * One binary performs both encrypt/decrypt operation.
35  *
36  * usage:
37  *
38  *  algorithm - mechanism name without CKM_ prefix. Case
39  *              does not matter
40  *  keyfile - file containing key data. If not specified user is
41  *            prompted to enter key. key length > 0 is required
42  *  infile  - input file to encrypt/decrypt. If omitted, stdin used.
43  *  outfile - output file to encrypt/decrypt. If omitted, stdout used.
44  *            if infile & outfile are same, a temp file is used for
45  *            output and infile is replaced with this file after
46  *            operation is complete.
47  *
48  * Implementation notes:
49  *   iv data - It is generated by random bytes equal to one block size.
50  *
51  *   encrypted output format -
52  *   - Output format version number - 4 bytes in network byte order.
53  *   - Iterations used in key gen function, 4 bytes in  network byte order.
54  *   - IV ( 'ivlen' bytes)
55  *   - Salt data used in key gen (16 bytes)
56  *   - cipher text data.
57  *
58  */
59 
60 #include <stdio.h>
61 #include <stdlib.h>
62 #include <unistd.h>
63 #include <errno.h>
64 #include <fcntl.h>
65 #include <ctype.h>
66 #include <strings.h>
67 #include <libintl.h>
68 #include <libgen.h>
69 #include <locale.h>
70 #include <limits.h>
71 #include <sys/types.h>
72 #include <sys/stat.h>
73 #include <netinet/in.h>
74 #include <security/cryptoki.h>
75 #include <cryptoutil.h>
76 #include <kmfapi.h>
77 
78 #define	BUFFERSIZE	(2048)		/* Buffer size for reading file */
79 #define	BLOCKSIZE	(128)		/* Largest guess for block size */
80 #define	PROGRESSSIZE	(BUFFERSIZE*20)	/* stdin progress indicator size */
81 
82 #define	SUNW_ENCRYPT_FILE_VERSION 1
83 
84 /*
85  * Exit Status codes
86  */
87 #ifndef EXIT_SUCCESS
88 #define	EXIT_SUCCESS	0	/* No errors */
89 #define	EXIT_FAILURE	1	/* All errors except usage */
90 #endif /* EXIT_SUCCESS */
91 
92 #define	EXIT_USAGE	2	/* usage/syntax error */
93 
94 #define	ENCRYPT_NAME	"encrypt"	/* name of encrypt command */
95 #define	ENCRYPT_OPTIONS "a:T:K:k:i:o:lv"	/* options for encrypt */
96 #define	DECRYPT_NAME	"decrypt"	/* name of decrypt command */
97 #define	DECRYPT_OPTIONS "a:T:K:k:i:o:lv"	/* options for decrypt */
98 
99 /*
100  * Structure containing info for encrypt/decrypt
101  * command
102  */
103 struct CommandInfo {
104 	char		*name;		/* name of the command */
105 	char		*options;	/* command line options */
106 	CK_FLAGS	flags;
107 	CK_ATTRIBUTE_TYPE type;		/* type of command */
108 
109 	/* function pointers for various operations */
110 	CK_RV	(*Init)(CK_SESSION_HANDLE, CK_MECHANISM_PTR, CK_OBJECT_HANDLE);
111 	CK_RV	(*Update)(CK_SESSION_HANDLE, CK_BYTE_PTR, CK_ULONG, CK_BYTE_PTR,
112 		CK_ULONG_PTR);
113 	CK_RV	(*Crypt)(CK_SESSION_HANDLE, CK_BYTE_PTR, CK_ULONG, CK_BYTE_PTR,
114 		CK_ULONG_PTR);
115 	CK_RV	(*Final)(CK_SESSION_HANDLE, CK_BYTE_PTR, CK_ULONG_PTR);
116 };
117 
118 static struct CommandInfo encrypt_cmd = {
119 	ENCRYPT_NAME,
120 	ENCRYPT_OPTIONS,
121 	CKF_ENCRYPT,
122 	CKA_ENCRYPT,
123 	C_EncryptInit,
124 	C_EncryptUpdate,
125 	C_Encrypt,
126 	C_EncryptFinal
127 };
128 
129 static struct CommandInfo decrypt_cmd = {
130 	DECRYPT_NAME,
131 	DECRYPT_OPTIONS,
132 	CKF_DECRYPT,
133 	CKA_DECRYPT,
134 	C_DecryptInit,
135 	C_DecryptUpdate,
136 	C_Decrypt,
137 	C_DecryptFinal
138 };
139 
140 struct mech_alias {
141 	CK_MECHANISM_TYPE type;
142 	char *alias;
143 	CK_ULONG keysize_min;
144 	CK_ULONG keysize_max;
145 	int keysize_unit;
146 	int ivlen;
147 	boolean_t available;
148 };
149 
150 #define	MECH_ALIASES_COUNT 4
151 
152 static struct mech_alias mech_aliases[] = {
153 	{ CKM_AES_CBC_PAD, "aes", ULONG_MAX, 0L, 8, 16, B_FALSE },
154 	{ CKM_RC4, "arcfour", ULONG_MAX, 0L, 1, 0, B_FALSE },
155 	{ CKM_DES_CBC_PAD, "des", 8, 8, 8, 8, B_FALSE },
156 	{ CKM_DES3_CBC_PAD, "3des", 24, 24, 8, 8, B_FALSE },
157 };
158 
159 static CK_BBOOL truevalue = TRUE;
160 static CK_BBOOL falsevalue = FALSE;
161 
162 static boolean_t aflag = B_FALSE; /* -a <algorithm> flag, required */
163 static boolean_t kflag = B_FALSE; /* -k <keyfile> flag */
164 static boolean_t iflag = B_FALSE; /* -i <infile> flag, use stdin if absent */
165 static boolean_t oflag = B_FALSE; /* -o <outfile> flag, use stdout if absent */
166 static boolean_t lflag = B_FALSE; /* -l flag (list) */
167 static boolean_t vflag = B_FALSE; /* -v flag (verbose) */
168 static boolean_t Tflag = B_FALSE;
169 static boolean_t Kflag = B_FALSE;
170 
171 static char *keyfile = NULL;	/* name of keyfile */
172 static char *inputfile = NULL;	/* name of input file */
173 static char *outputfile = NULL;	/* name of output file */
174 static char *token_label = NULL;
175 static char *key_label = NULL;
176 
177 static int status_pos = 0; /* current position of progress bar element */
178 
179 /*
180  * function prototypes
181  */
182 static void usage(struct CommandInfo *cmd);
183 static int execute_cmd(struct CommandInfo *cmd, char *algo_str);
184 static int crypt_multipart(struct CommandInfo *cmd, CK_SESSION_HANDLE hSession,
185 	int infd, int outfd, off_t insize);
186 
187 int
188 main(int argc, char **argv)
189 {
190 
191 	extern char *optarg;
192 	extern int optind;
193 	char *optstr;
194 	char c;			/* current getopts flag */
195 	char *algo_str = NULL;	/* algorithm string */
196 	struct CommandInfo *cmd;
197 	char *cmdname;		/* name of command */
198 	boolean_t errflag = B_FALSE;
199 
200 	(void) setlocale(LC_ALL, "");
201 #if !defined(TEXT_DOMAIN)	/* Should be defiend by cc -D */
202 #define	TEXT_DOMAIN "SYS_TEST"	/* Use this only if it weren't */
203 #endif
204 	(void) textdomain(TEXT_DOMAIN);
205 
206 	/*
207 	 * Based on command name, determine
208 	 * type of command.
209 	 */
210 	cmdname = basename(argv[0]);
211 
212 	cryptodebug_init(cmdname);
213 
214 	if (strcmp(cmdname, encrypt_cmd.name) == 0) {
215 		cmd = &encrypt_cmd;
216 	} else if (strcmp(cmdname, decrypt_cmd.name) == 0) {
217 		cmd = &decrypt_cmd;
218 	} else {
219 		cryptoerror(LOG_STDERR, gettext(
220 		    "command name must be either encrypt or decrypt"));
221 		exit(EXIT_USAGE);
222 	}
223 
224 	optstr = cmd->options;
225 
226 	/* Parse command line arguments */
227 	while (!errflag && (c = getopt(argc, argv, optstr)) != -1) {
228 
229 		switch (c) {
230 		case 'a':
231 			aflag = B_TRUE;
232 			algo_str = optarg;
233 			break;
234 		case 'k':
235 			kflag = B_TRUE;
236 			keyfile = optarg;
237 			break;
238 		case 'T':
239 			Tflag = B_TRUE;
240 			token_label = optarg;
241 			break;
242 		case 'K':
243 			Kflag = B_TRUE;
244 			key_label = optarg;
245 			break;
246 		case 'i':
247 			iflag = B_TRUE;
248 			inputfile = optarg;
249 			break;
250 		case 'o':
251 			oflag = B_TRUE;
252 			outputfile = optarg;
253 			break;
254 		case 'l':
255 			lflag = B_TRUE;
256 			break;
257 		case 'v':
258 			vflag = B_TRUE;
259 			break;
260 		default:
261 			errflag = B_TRUE;
262 		}
263 	}
264 
265 	if (errflag || (!aflag && !lflag) || (lflag && argc > 2) ||
266 	    (kflag && Kflag) || (Tflag && !Kflag) ||
267 	    (optind < argc)) {
268 		usage(cmd);
269 		exit(EXIT_USAGE);
270 	}
271 
272 	return (execute_cmd(cmd, algo_str));
273 }
274 
275 /*
276  * usage message
277  */
278 static void
279 usage(struct CommandInfo *cmd)
280 {
281 	(void) fprintf(stderr, gettext("Usage:\n"));
282 	if (cmd->type == CKA_ENCRYPT) {
283 		(void) fprintf(stderr, gettext("  encrypt -l\n"));
284 		(void) fprintf(stderr, gettext("  encrypt -a <algorithm> "
285 		    "[-v] [-k <keyfile> | -K <keylabel> [-T <tokenspec>]] "
286 		    "[-i <infile>] [-o <outfile>]\n"));
287 
288 	} else {
289 		(void) fprintf(stderr, gettext("  decrypt -l\n"));
290 		(void) fprintf(stderr, gettext("  decrypt -a <algorithm> "
291 		    "[-v] [-k <keyfile> | -K <keylabel> [-T <tokenspec>]] "
292 		    "[-i <infile>] [-o <outfile>]\n"));
293 	}
294 }
295 
296 /*
297  * Print out list of algorithms in default and verbose mode
298  */
299 static void
300 algorithm_list()
301 {
302 	int mech;
303 
304 	(void) printf(gettext("Algorithm       Keysize:  Min   Max (bits)\n"
305 	    "------------------------------------------\n"));
306 
307 	for (mech = 0; mech < MECH_ALIASES_COUNT; mech++) {
308 
309 		if (mech_aliases[mech].available == B_FALSE)
310 			continue;
311 
312 		(void) printf("%-15s", mech_aliases[mech].alias);
313 
314 		if (mech_aliases[mech].keysize_min != UINT_MAX &&
315 		    mech_aliases[mech].keysize_max != 0)
316 			(void) printf("         %5lu %5lu\n",
317 			    (mech_aliases[mech].keysize_min *
318 			    mech_aliases[mech].keysize_unit),
319 			    (mech_aliases[mech].keysize_max *
320 			    mech_aliases[mech].keysize_unit));
321 		else
322 			(void) printf("\n");
323 
324 	}
325 }
326 
327 /*
328  * This function will login into the token with the provided password and
329  * find the token key object with the specified keytype and keylabel.
330  */
331 static int
332 get_token_key(CK_SESSION_HANDLE hSession, CK_KEY_TYPE keytype,
333     char *keylabel, CK_BYTE *password, int password_len,
334     CK_OBJECT_HANDLE *keyobj)
335 {
336 	CK_RV	rv;
337 	CK_ATTRIBUTE pTmpl[10];
338 	CK_OBJECT_CLASS class = CKO_SECRET_KEY;
339 	CK_BBOOL true = 1;
340 	CK_BBOOL is_token = 1;
341 	CK_ULONG key_obj_count = 1;
342 	int i;
343 	CK_KEY_TYPE ckKeyType = keytype;
344 
345 
346 	rv = C_Login(hSession, CKU_USER, (CK_UTF8CHAR_PTR)password,
347 	    (CK_ULONG)password_len);
348 	if (rv != CKR_OK) {
349 		(void) fprintf(stderr, "Cannot login to the token."
350 		    " error = %s\n", pkcs11_strerror(rv));
351 		return (-1);
352 	}
353 
354 	i = 0;
355 	pTmpl[i].type = CKA_TOKEN;
356 	pTmpl[i].pValue = &is_token;
357 	pTmpl[i].ulValueLen = sizeof (CK_BBOOL);
358 	i++;
359 
360 	pTmpl[i].type = CKA_CLASS;
361 	pTmpl[i].pValue = &class;
362 	pTmpl[i].ulValueLen = sizeof (class);
363 	i++;
364 
365 	pTmpl[i].type = CKA_LABEL;
366 	pTmpl[i].pValue = keylabel;
367 	pTmpl[i].ulValueLen = strlen(keylabel);
368 	i++;
369 
370 	pTmpl[i].type = CKA_KEY_TYPE;
371 	pTmpl[i].pValue = &ckKeyType;
372 	pTmpl[i].ulValueLen = sizeof (ckKeyType);
373 	i++;
374 
375 	pTmpl[i].type = CKA_PRIVATE;
376 	pTmpl[i].pValue = &true;
377 	pTmpl[i].ulValueLen = sizeof (true);
378 	i++;
379 
380 	rv = C_FindObjectsInit(hSession, pTmpl, i);
381 	if (rv != CKR_OK) {
382 		goto out;
383 	}
384 
385 	rv = C_FindObjects(hSession, keyobj, 1, &key_obj_count);
386 
387 	(void) C_FindObjectsFinal(hSession);
388 
389 out:
390 	if (rv != CKR_OK) {
391 		(void) fprintf(stderr,
392 		    "Cannot retrieve key object. error = %s\n",
393 		    pkcs11_strerror(rv));
394 		return (-1);
395 	}
396 
397 	if (key_obj_count == 0) {
398 		(void) fprintf(stderr, "Cannot find the key object.\n");
399 		return (-1);
400 	}
401 
402 	return (0);
403 }
404 
405 
406 /*
407  * Execute the command.
408  *   cmd - command pointing to type of operation.
409  *   algo_str - alias of the algorithm passed.
410  */
411 static int
412 execute_cmd(struct CommandInfo *cmd, char *algo_str)
413 {
414 	CK_RV rv;
415 	CK_ULONG slotcount;
416 	CK_SLOT_ID slotID;
417 	CK_SLOT_ID_PTR pSlotList = NULL;
418 	CK_MECHANISM_TYPE mech_type = 0;
419 	CK_MECHANISM_INFO info, kg_info;
420 	CK_MECHANISM mech;
421 	CK_SESSION_HANDLE hSession = CK_INVALID_HANDLE;
422 	CK_BYTE_PTR	pkeydata = NULL;
423 	CK_BYTE		salt[CK_PKCS5_PBKD2_SALT_SIZE];
424 	CK_ULONG	keysize = 0;
425 	int i, slot, mek;		/* index variables */
426 	int status;
427 	struct stat	insbuf;		/* stat buf for infile */
428 	struct stat	outsbuf;	/* stat buf for outfile */
429 	char	tmpnam[PATH_MAX];	/* tmp file name */
430 	CK_OBJECT_HANDLE key = (CK_OBJECT_HANDLE) 0;
431 	int infd = 0;			/* input file, stdin default */
432 	int outfd = 1;			/* output file, stdout default */
433 	char *outfilename = NULL;
434 	boolean_t errflag = B_TRUE;
435 	boolean_t inoutsame = B_FALSE;	/* if both input & output are same */
436 	CK_BYTE_PTR	pivbuf = NULL_PTR;
437 	CK_ULONG	ivlen = 0L;
438 	int mech_match = 0;
439 	CK_ULONG	iterations = CK_PKCS5_PBKD2_ITERATIONS;
440 	CK_ULONG	keylen;
441 	int version = SUNW_ENCRYPT_FILE_VERSION;
442 	CK_KEY_TYPE keytype;
443 	KMF_RETURN kmfrv;
444 	CK_SLOT_ID token_slot_id;
445 
446 	if (aflag) {
447 		/* Determine if algorithm is valid */
448 		for (mech_match = 0; mech_match < MECH_ALIASES_COUNT;
449 		    mech_match++) {
450 			if (strcmp(algo_str,
451 			    mech_aliases[mech_match].alias) == 0) {
452 				mech_type = mech_aliases[mech_match].type;
453 				break;
454 			}
455 		}
456 
457 		if (mech_match == MECH_ALIASES_COUNT) {
458 			cryptoerror(LOG_STDERR,
459 			    gettext("unknown algorithm -- %s"), algo_str);
460 			return (EXIT_FAILURE);
461 		}
462 
463 		/*
464 		 * Process keyfile or get the token pin if -K is specified.
465 		 *
466 		 * If a keyfile is provided, get the key data from
467 		 * the file. Otherwise, prompt for a passphrase. The
468 		 * passphrase is used as the key data.
469 		 */
470 		if (Kflag) {
471 			/* get the pin of the token */
472 			if (token_label == NULL || !strlen(token_label)) {
473 				token_label = pkcs11_default_token();
474 			}
475 
476 			status = pkcs11_get_pass(token_label,
477 			    (char **)&pkeydata, (size_t *)&keysize, 0, B_FALSE);
478 		} else if (kflag) {
479 			/* get the key file */
480 			status = pkcs11_read_data(keyfile, (void **)&pkeydata,
481 			    (size_t *)&keysize);
482 		} else {
483 			/* get the key from input */
484 			status = pkcs11_get_pass(NULL, (char **)&pkeydata,
485 			    (size_t *)&keysize, 0, B_FALSE);
486 		}
487 
488 		if (status == -1 || keysize == 0L) {
489 			cryptoerror(LOG_STDERR,
490 			    Kflag ? gettext("invalid password.") :
491 			    gettext("invalid key."));
492 			return (EXIT_FAILURE);
493 		}
494 	}
495 
496 	bzero(salt, sizeof (salt));
497 	/* Initialize pkcs */
498 	rv = C_Initialize(NULL);
499 	if (rv != CKR_OK && rv != CKR_CRYPTOKI_ALREADY_INITIALIZED) {
500 		cryptoerror(LOG_STDERR, gettext("failed to initialize "
501 		    "PKCS #11 framework: %s"), pkcs11_strerror(rv));
502 		goto cleanup;
503 	}
504 
505 	/* Get slot count */
506 	rv = C_GetSlotList(0, NULL_PTR, &slotcount);
507 	if (rv != CKR_OK || slotcount == 0) {
508 		cryptoerror(LOG_STDERR, gettext(
509 		    "failed to find any cryptographic provider,"
510 		    "please check with your system administrator: %s"),
511 		    pkcs11_strerror(rv));
512 		goto cleanup;
513 	}
514 
515 	/* Found at least one slot, allocate memory for slot list */
516 	pSlotList = malloc(slotcount * sizeof (CK_SLOT_ID));
517 	if (pSlotList == NULL_PTR) {
518 		int err = errno;
519 		cryptoerror(LOG_STDERR, gettext("malloc: %s"), strerror(err));
520 		goto cleanup;
521 	}
522 
523 	/* Get the list of slots */
524 	if ((rv = C_GetSlotList(0, pSlotList, &slotcount)) != CKR_OK) {
525 		cryptoerror(LOG_STDERR, gettext(
526 		    "failed to find any cryptographic provider,"
527 		    "please check with your system administrator: %s"),
528 		    pkcs11_strerror(rv));
529 		goto cleanup;
530 	}
531 
532 	if (lflag) {
533 
534 		/* Iterate through slots */
535 		for (slot = 0; slot < slotcount; slot++) {
536 
537 			/* Iterate through each mechanism */
538 			for (mek = 0; mek < MECH_ALIASES_COUNT; mek++) {
539 				rv = C_GetMechanismInfo(pSlotList[slot],
540 				    mech_aliases[mek].type, &info);
541 
542 				if (rv != CKR_OK)
543 					continue;
544 
545 				/*
546 				 * Set to minimum/maximum key sizes assuming
547 				 * the values available are not 0.
548 				 */
549 				if (info.ulMinKeySize && (info.ulMinKeySize <
550 				    mech_aliases[mek].keysize_min))
551 					mech_aliases[mek].keysize_min =
552 					    info.ulMinKeySize;
553 
554 				if (info.ulMaxKeySize && (info.ulMaxKeySize >
555 				    mech_aliases[mek].keysize_max))
556 					mech_aliases[mek].keysize_max =
557 					    info.ulMaxKeySize;
558 
559 				mech_aliases[mek].available = B_TRUE;
560 			}
561 
562 		}
563 
564 		algorithm_list();
565 
566 		errflag = B_FALSE;
567 		goto cleanup;
568 	}
569 
570 
571 	/*
572 	 * Find a slot with matching mechanism
573 	 *
574 	 * If -K is specified, we find the slot id for the token first, then
575 	 * check if the slot supports the algorithm.
576 	 */
577 	i = 0;
578 	if (Kflag) {
579 		kmfrv = kmf_pk11_token_lookup(NULL, token_label,
580 		    &token_slot_id);
581 		if (kmfrv != KMF_OK) {
582 			cryptoerror(LOG_STDERR,
583 			    gettext("no matching PKCS#11 token"));
584 			errflag = B_TRUE;
585 			goto cleanup;
586 		}
587 		rv = C_GetMechanismInfo(token_slot_id, mech_type, &info);
588 		if (rv == CKR_OK && (info.flags & cmd->flags))
589 			slotID = token_slot_id;
590 		else
591 			i = slotcount;
592 	} else {
593 		for (i = 0; i < slotcount; i++) {
594 			slotID = pSlotList[i];
595 			rv = C_GetMechanismInfo(slotID, mech_type, &info);
596 			if (rv != CKR_OK) {
597 				continue; /* to the next slot */
598 			} else {
599 				/*
600 				 * If the slot support the crypto, also
601 				 * make sure it supports the correct
602 				 * key generation mech if needed.
603 				 *
604 				 * We need PKCS5 when RC4 is used or
605 				 * when the key is entered on cmd line.
606 				 */
607 				if ((info.flags & cmd->flags) &&
608 				    (mech_type == CKM_RC4) ||
609 				    (keyfile == NULL)) {
610 					rv = C_GetMechanismInfo(slotID,
611 					    CKM_PKCS5_PBKD2, &kg_info);
612 					if (rv == CKR_OK)
613 						break;
614 				} else if (info.flags & cmd->flags) {
615 					break;
616 				}
617 			}
618 		}
619 	}
620 
621 	/* Show error if no matching mechanism found */
622 	if (i == slotcount) {
623 		cryptoerror(LOG_STDERR,
624 		    gettext("no cryptographic provider was "
625 		    "found for this algorithm -- %s"), algo_str);
626 		goto cleanup;
627 	}
628 
629 	/* Open a session */
630 	rv = C_OpenSession(slotID, CKF_SERIAL_SESSION,
631 	    NULL_PTR, NULL, &hSession);
632 
633 	if (rv != CKR_OK) {
634 		cryptoerror(LOG_STDERR,
635 		    gettext("can not open PKCS #11 session: %s"),
636 		    pkcs11_strerror(rv));
637 		goto cleanup;
638 	}
639 
640 	/*
641 	 * Generate IV data for encrypt.
642 	 */
643 	ivlen = mech_aliases[mech_match].ivlen;
644 	if ((pivbuf = malloc((size_t)ivlen)) == NULL) {
645 		int err = errno;
646 		cryptoerror(LOG_STDERR, gettext("malloc: %s"),
647 		    strerror(err));
648 		goto cleanup;
649 	}
650 
651 	if (cmd->type == CKA_ENCRYPT) {
652 		if ((pkcs11_random_data((void *)pivbuf,
653 		    mech_aliases[mech_match].ivlen)) != 0) {
654 			cryptoerror(LOG_STDERR, gettext(
655 			    "Unable to generate random "
656 			    "data for initialization vector."));
657 			goto cleanup;
658 		}
659 	}
660 
661 	/*
662 	 * Create the key object
663 	 */
664 	rv = pkcs11_mech2keytype(mech_type, &keytype);
665 	if (rv != CKR_OK) {
666 		cryptoerror(LOG_STDERR,
667 		    gettext("unable to find key type for algorithm."));
668 		goto cleanup;
669 	}
670 
671 	/* Open input file */
672 	if (iflag) {
673 		if ((infd = open(inputfile, O_RDONLY | O_NONBLOCK)) == -1) {
674 			cryptoerror(LOG_STDERR, gettext(
675 			    "can not open input file %s"), inputfile);
676 			goto cleanup;
677 		}
678 
679 		/* Get info on input file */
680 		if (fstat(infd, &insbuf) == -1) {
681 			cryptoerror(LOG_STDERR, gettext(
682 			    "can not stat input file %s"), inputfile);
683 			goto cleanup;
684 		}
685 	}
686 
687 	/*
688 	 * Prepare output file
689 	 * If the input & output file are same,
690 	 * the output is written to a temp
691 	 * file first, then renamed to the original file
692 	 * after the crypt operation
693 	 */
694 	inoutsame = B_FALSE;
695 	if (oflag) {
696 		outfilename = outputfile;
697 		if ((stat(outputfile, &outsbuf) != -1) &&
698 		    (insbuf.st_ino == outsbuf.st_ino)) {
699 			char *dir;
700 
701 			/* create temp file on same dir */
702 			dir = dirname(outputfile);
703 			(void) snprintf(tmpnam, sizeof (tmpnam),
704 			    "%s/encrXXXXXX", dir);
705 			outfilename = tmpnam;
706 			if ((outfd = mkstemp(tmpnam)) == -1) {
707 				cryptoerror(LOG_STDERR, gettext(
708 				    "cannot create temp file"));
709 				goto cleanup;
710 			}
711 			inoutsame = B_TRUE;
712 		} else {
713 			/* Create file for output */
714 			if ((outfd = open(outfilename,
715 			    O_CREAT|O_WRONLY|O_TRUNC, 0644)) == -1) {
716 				cryptoerror(LOG_STDERR, gettext(
717 				    "cannot open output file %s"),
718 				    outfilename);
719 				goto cleanup;
720 			}
721 		}
722 	}
723 
724 	/*
725 	 * Read the version number from the head of the file
726 	 * to know how to interpret the data that follows.
727 	 */
728 	if (cmd->type == CKA_DECRYPT) {
729 		if (read(infd, &version, sizeof (version)) !=
730 		    sizeof (version)) {
731 			cryptoerror(LOG_STDERR, gettext(
732 			    "failed to get format version from "
733 			    "input file."));
734 			goto cleanup;
735 		}
736 		/* convert to host byte order */
737 		version = ntohl(version);
738 
739 		switch (version) {
740 		case 1:
741 		/*
742 		 * Version 1 output format:
743 		 *  - Iterations used in key gen function (4 bytes)
744 		 *  - IV ( 'ivlen' bytes)
745 		 *  - Salt data used in key gen (16 bytes)
746 		 *
747 		 * An encrypted file has IV as first block (0 or
748 		 * more bytes depending on mechanism) followed
749 		 * by cipher text.  Get the IV from the encrypted
750 		 * file.
751 		 */
752 			/*
753 			 * Read iteration count and salt data.
754 			 */
755 			if (read(infd, &iterations,
756 			    sizeof (iterations)) != sizeof (iterations)) {
757 				cryptoerror(LOG_STDERR, gettext(
758 				    "failed to get iterations from "
759 				    "input file."));
760 				goto cleanup;
761 			}
762 			/* convert to host byte order */
763 			iterations = ntohl(iterations);
764 			if (ivlen > 0 &&
765 			    read(infd, pivbuf, ivlen) != ivlen) {
766 				cryptoerror(LOG_STDERR, gettext(
767 				    "failed to get initialization "
768 				    "vector from input file."));
769 				goto cleanup;
770 			}
771 			if (read(infd, salt, sizeof (salt))
772 			    != sizeof (salt)) {
773 				cryptoerror(LOG_STDERR, gettext(
774 				    "failed to get salt data from "
775 				    "input file."));
776 				goto cleanup;
777 			}
778 			break;
779 		default:
780 			cryptoerror(LOG_STDERR, gettext(
781 			    "Unrecognized format version read from "
782 			    "input file - expected %d, got %d."),
783 			    SUNW_ENCRYPT_FILE_VERSION, version);
784 			goto cleanup;
785 			break;
786 		}
787 	}
788 
789 	/*
790 	 * If Kflag is set, let's find the token key now.
791 	 *
792 	 * If Kflag is not set and if encrypting, we need some random
793 	 * salt data to create the key.  If decrypting,
794 	 * the salt should come from head of the file
795 	 * to be decrypted.
796 	 */
797 	if (Kflag) {
798 		rv = get_token_key(hSession, keytype, key_label, pkeydata,
799 		    keysize, &key);
800 		if (rv != CKR_OK) {
801 			cryptoerror(LOG_STDERR, gettext(
802 			    "Can not find the token key"));
803 			goto cleanup;
804 		} else {
805 			goto do_crypto;
806 		}
807 	} else if (cmd->type == CKA_ENCRYPT) {
808 		rv = pkcs11_random_data((void *)salt, sizeof (salt));
809 		if (rv != 0) {
810 			cryptoerror(LOG_STDERR,
811 			gettext("unable to generate random "
812 			    "data for key salt."));
813 			goto cleanup;
814 		}
815 	}
816 
817 
818 	/*
819 	 * If key input is read from  a file, treat it as
820 	 * raw key data, unless it is to be used with RC4,
821 	 * in which case it must be used to generate a pkcs5
822 	 * key to address security concerns with RC4 keys.
823 	 */
824 	if (kflag && keyfile != NULL && keytype != CKK_RC4) {
825 		/* XXX : why wasn't SUNW_C_KeyToObject used here? */
826 		CK_OBJECT_CLASS objclass = CKO_SECRET_KEY;
827 		CK_ATTRIBUTE template[5];
828 		int nattr = 0;
829 
830 		template[nattr].type = CKA_CLASS;
831 		template[nattr].pValue = &objclass;
832 		template[nattr].ulValueLen = sizeof (objclass);
833 		nattr++;
834 
835 		template[nattr].type = CKA_KEY_TYPE;
836 		template[nattr].pValue = &keytype;
837 		template[nattr].ulValueLen = sizeof (keytype);
838 		nattr++;
839 
840 		template[nattr].type = cmd->type;
841 		template[nattr].pValue = &truevalue;
842 		template[nattr].ulValueLen = sizeof (truevalue);
843 		nattr++;
844 
845 		template[nattr].type = CKA_TOKEN;
846 		template[nattr].pValue = &falsevalue;
847 		template[nattr].ulValueLen = sizeof (falsevalue);
848 		nattr++;
849 
850 		template[nattr].type = CKA_VALUE;
851 		template[nattr].pValue = pkeydata;
852 		template[nattr].ulValueLen = keysize;
853 		nattr++;
854 
855 		rv = C_CreateObject(hSession, template, nattr, &key);
856 	} else {
857 		/*
858 		 * If the encryption type has a fixed key length,
859 		 * then its not necessary to set the key length
860 		 * parameter when generating the key.
861 		 */
862 		if (keytype == CKK_DES || keytype == CKK_DES3)
863 			keylen = 0;
864 		else
865 			keylen = 16;
866 
867 		/*
868 		 * Generate a cryptographically secure key using
869 		 * the key read from the file given (-k keyfile) or
870 		 * the passphrase entered by the user.
871 		 */
872 		rv = pkcs11_PasswdToPBKD2Object(hSession, (char *)pkeydata,
873 		    (size_t)keysize, (void *)salt, sizeof (salt), iterations,
874 		    keytype, keylen, cmd->flags, &key);
875 	}
876 
877 	if (rv != CKR_OK) {
878 		cryptoerror(LOG_STDERR, gettext(
879 		    "failed to generate a key: %s"),
880 		    pkcs11_strerror(rv));
881 		goto cleanup;
882 	}
883 
884 
885 do_crypto:
886 	/* Setup up mechanism */
887 	mech.mechanism = mech_type;
888 	mech.pParameter = (CK_VOID_PTR)pivbuf;
889 	mech.ulParameterLen = ivlen;
890 
891 	if ((rv = cmd->Init(hSession, &mech, key)) != CKR_OK) {
892 		cryptoerror(LOG_STDERR, gettext(
893 		    "failed to initialize crypto operation: %s"),
894 		    pkcs11_strerror(rv));
895 		goto cleanup;
896 	}
897 
898 	/* Write the version header encrypt command */
899 	if (cmd->type == CKA_ENCRYPT) {
900 		/* convert to network order for storage */
901 		int netversion = htonl(version);
902 		CK_ULONG netiter;
903 
904 		if (write(outfd, &netversion, sizeof (netversion))
905 		    != sizeof (netversion)) {
906 			cryptoerror(LOG_STDERR, gettext(
907 			    "failed to write version number "
908 			    "to output file."));
909 			goto cleanup;
910 		}
911 		/*
912 		 * Write the iteration and salt data, even if they
913 		 * were not used to generate a key.
914 		 */
915 		netiter = htonl(iterations);
916 		if (write(outfd, &netiter,
917 		    sizeof (netiter)) != sizeof (netiter)) {
918 			cryptoerror(LOG_STDERR, gettext(
919 			    "failed to write iterations to output"));
920 			goto cleanup;
921 		}
922 		if (ivlen > 0 && write(outfd, pivbuf, ivlen) != ivlen) {
923 			cryptoerror(LOG_STDERR, gettext(
924 			    "failed to write initialization vector "
925 			    "to output"));
926 			goto cleanup;
927 		}
928 		if (write(outfd, salt, sizeof (salt)) != sizeof (salt)) {
929 			cryptoerror(LOG_STDERR, gettext(
930 			    "failed to write salt data to output"));
931 			goto cleanup;
932 		}
933 	}
934 
935 	if (crypt_multipart(cmd, hSession, infd, outfd, insbuf.st_size) == -1) {
936 		goto cleanup;
937 	}
938 
939 	errflag = B_FALSE;
940 
941 	/*
942 	 * Clean up
943 	 */
944 cleanup:
945 	/* Clear the key data, so others cannot snoop */
946 	if (pkeydata != NULL) {
947 		bzero(pkeydata, keysize);
948 		free(pkeydata);
949 		pkeydata = NULL;
950 	}
951 
952 	/* Destroy key object */
953 	if (Kflag != B_FALSE && key != (CK_OBJECT_HANDLE) 0) {
954 		(void) C_DestroyObject(hSession, key);
955 	}
956 
957 	/* free allocated memory */
958 	if (pSlotList != NULL)
959 		free(pSlotList);
960 	if (pivbuf != NULL)
961 		free(pivbuf);
962 
963 	/* close all the files */
964 	if (iflag && (infd != -1))
965 		(void) close(infd);
966 	if (oflag && (outfd != -1))
967 		(void) close(outfd);
968 
969 	/* rename tmp output to input file */
970 	if (inoutsame) {
971 		if (rename(outfilename, inputfile) == -1) {
972 			(void) unlink(outfilename);
973 			cryptoerror(LOG_STDERR, gettext("rename failed."));
974 		}
975 	}
976 
977 	/* If error occurred, remove the output file */
978 	if (errflag && outfilename != NULL) {
979 		(void) unlink(outfilename);
980 	}
981 
982 	/* close pkcs11 session */
983 	if (hSession != CK_INVALID_HANDLE)
984 		(void) C_CloseSession(hSession);
985 
986 	(void) C_Finalize(NULL);
987 
988 	return (errflag);
989 }
990 
991 /*
992  * Function for printing progress bar when the verbose flag
993  * is set.
994  *
995  * The vertical bar is printed at 25, 50, and 75% complete.
996  *
997  * The function is passed the number of positions on the screen it needs to
998  * advance and loops.
999  */
1000 
1001 static void
1002 print_status(int pos_to_advance)
1003 {
1004 
1005 	while (pos_to_advance > 0) {
1006 		switch (status_pos) {
1007 		case 0:
1008 			(void) fprintf(stderr, gettext("["));
1009 			break;
1010 		case 19:
1011 		case 39:
1012 		case 59:
1013 			(void) fprintf(stderr, gettext("|"));
1014 			break;
1015 		default:
1016 			(void) fprintf(stderr, gettext("."));
1017 		}
1018 		pos_to_advance--;
1019 		status_pos++;
1020 	}
1021 }
1022 
1023 /*
1024  * Encrypt/Decrypt in multi part.
1025  *
1026  * This function reads the input file (infd) and writes the
1027  * encrypted/decrypted output to file (outfd).
1028  *
1029  * cmd - pointing  to commandinfo
1030  * hSession - pkcs session
1031  * infd - input file descriptor
1032  * outfd - output file descriptor
1033  *
1034  */
1035 
1036 static int
1037 crypt_multipart(struct CommandInfo *cmd, CK_SESSION_HANDLE hSession,
1038 	int infd, int outfd, off_t insize)
1039 {
1040 	CK_RV		rv;
1041 	CK_ULONG	resultlen;
1042 	CK_ULONG	resultbuflen;
1043 	CK_BYTE_PTR	resultbuf;
1044 	CK_ULONG	datalen;
1045 	CK_BYTE		databuf[BUFFERSIZE];
1046 	CK_BYTE		outbuf[BUFFERSIZE+BLOCKSIZE];
1047 	CK_ULONG	status_index = 0; /* current total file size read */
1048 	float		status_last = 0.0; /* file size of last element used */
1049 	float		status_incr = 0.0; /* file size element increments */
1050 	int		pos; /* # of progress bar elements to be print */
1051 	ssize_t		nread;
1052 	boolean_t	errflag = B_FALSE;
1053 
1054 	datalen = sizeof (databuf);
1055 	resultbuflen = sizeof (outbuf);
1056 	resultbuf = outbuf;
1057 
1058 	/* Divide into 79 increments for progress bar element spacing */
1059 	if (vflag && iflag)
1060 		status_incr = (insize / 79.0);
1061 
1062 	while ((nread = read(infd, databuf, datalen)) > 0) {
1063 
1064 		/* Start with the initial buffer */
1065 		resultlen = resultbuflen;
1066 		rv = cmd->Update(hSession, databuf, (CK_ULONG)nread,
1067 		    resultbuf, &resultlen);
1068 
1069 		/* Need a bigger buffer? */
1070 		if (rv == CKR_BUFFER_TOO_SMALL) {
1071 
1072 			/* free the old buffer */
1073 			if (resultbuf != NULL && resultbuf != outbuf) {
1074 				bzero(resultbuf, resultbuflen);
1075 				free(resultbuf);
1076 			}
1077 
1078 			/* allocate a new big buffer */
1079 			if ((resultbuf = malloc((size_t)resultlen)) == NULL) {
1080 				int err = errno;
1081 				cryptoerror(LOG_STDERR, gettext("malloc: %s"),
1082 				    strerror(err));
1083 				return (-1);
1084 			}
1085 			resultbuflen = resultlen;
1086 
1087 			/* Try again with bigger buffer */
1088 			rv = cmd->Update(hSession, databuf, (CK_ULONG)nread,
1089 			    resultbuf, &resultlen);
1090 		}
1091 
1092 		if (rv != CKR_OK) {
1093 			errflag = B_TRUE;
1094 			cryptoerror(LOG_STDERR, gettext(
1095 			    "crypto operation failed: %s"),
1096 			    pkcs11_strerror(rv));
1097 			break;
1098 		}
1099 
1100 		/* write the output */
1101 		if (write(outfd, resultbuf, resultlen) != resultlen) {
1102 			cryptoerror(LOG_STDERR, gettext(
1103 			    "failed to write result to output file."));
1104 			errflag = B_TRUE;
1105 			break;
1106 		}
1107 
1108 		if (vflag) {
1109 			status_index += resultlen;
1110 
1111 			/*
1112 			 * If input is from stdin, do a our own progress bar
1113 			 * by printing periods at a pre-defined increment
1114 			 * until the file is done.
1115 			 */
1116 			if (!iflag) {
1117 
1118 				/*
1119 				 * Print at least 1 element in case the file
1120 				 * is small, it looks better than nothing.
1121 				 */
1122 				if (status_pos == 0) {
1123 					(void) fprintf(stderr, gettext("."));
1124 					status_pos = 1;
1125 				}
1126 
1127 				if ((status_index - status_last) >
1128 				    (PROGRESSSIZE)) {
1129 					(void) fprintf(stderr, gettext("."));
1130 					status_last = status_index;
1131 				}
1132 				continue;
1133 			}
1134 
1135 			/* Calculate the number of elements need to be print */
1136 			if (insize <= BUFFERSIZE)
1137 				pos = 78;
1138 			else
1139 				pos = (int)((status_index - status_last) /
1140 				    status_incr);
1141 
1142 			/* Add progress bar elements, if needed */
1143 			if (pos > 0) {
1144 				print_status(pos);
1145 				status_last += (status_incr * pos);
1146 			}
1147 		}
1148 	}
1149 
1150 	/* Print verbose completion */
1151 	if (vflag) {
1152 		if (iflag)
1153 			(void) fprintf(stderr, "]");
1154 
1155 		(void) fprintf(stderr, "\n%s\n", gettext("Done."));
1156 	}
1157 
1158 	/* Error in reading */
1159 	if (nread == -1) {
1160 		cryptoerror(LOG_STDERR, gettext(
1161 		    "error reading from input file"));
1162 		errflag = B_TRUE;
1163 	}
1164 
1165 	if (!errflag) {
1166 
1167 		/* Do the final part */
1168 
1169 		rv = cmd->Final(hSession, resultbuf, &resultlen);
1170 
1171 		if (rv == CKR_OK) {
1172 			/* write the output */
1173 			if (write(outfd, resultbuf, resultlen) != resultlen) {
1174 				cryptoerror(LOG_STDERR, gettext(
1175 				    "failed to write result to output file."));
1176 				errflag = B_TRUE;
1177 			}
1178 		} else {
1179 			cryptoerror(LOG_STDERR, gettext(
1180 			    "crypto operation failed: %s"),
1181 			    pkcs11_strerror(rv));
1182 			errflag = B_TRUE;
1183 		}
1184 
1185 	}
1186 
1187 	if (resultbuf != NULL && resultbuf != outbuf) {
1188 		bzero(resultbuf, resultbuflen);
1189 		free(resultbuf);
1190 	}
1191 
1192 	if (errflag) {
1193 		return (-1);
1194 	} else {
1195 		return (0);
1196 	}
1197 }
1198