xref: /illumos-gate/usr/src/cmd/acct/wtmpfix.c (revision 2983dda76a6d296fdb560c88114fe41caad1b84f)
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 
22 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
23 /*	  All Rights Reserved  	*/
24 
25 /*
26  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
27  * Use is subject to license terms.
28  */
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 /*
33  * wtmpfix - adjust wtmpx file and remove date changes.
34  *	wtmpfix <wtmpx1 >wtmpx2
35  *
36  *	Can recover to some extent from wtmpx corruption.
37  */
38 
39 #include <stdio.h>
40 #include <sys/types.h>
41 #include <sys/stat.h>
42 #include <sys/param.h>
43 #include "acctdef.h"
44 #include <utmpx.h>
45 #include <time.h>
46 #include <ctype.h>
47 #include <locale.h>
48 #include <stdlib.h>
49 #include <string.h>
50 #include <errno.h>
51 
52 #define	DAYEPOCH	(60 * 60 * 24)
53 #define	UTRSZ		(sizeof (struct futmpx)) /* file record size */
54 
55 /*
56  * The acctsh(1M) shell scripts startup(1M) and shutacct(1M) as well as the
57  * runacct script each pass their own specific reason strings in the first
58  * argument to acctwtmp(1M), to be propagated into ut_line fields.  Additional
59  * reasons (RUNLVL_MSG, ..., DOWN_MSG), used by compiled code, are defined in
60  * <utmp.h> as preprocessor constants.
61  * For simplicity we predefine similar constants for the scripted strings
62  * here, as no other compiled code uses those.
63  * Moreover, we need a variant of RUNLVL_MSG without the "%c" at the end.
64  * We shall use the fact that ut_line[RLVLMSG_LEN] will extract the char
65  * in the %c position ('S', '2', ...).
66  * Since all of these string constants are '\0' terminated, they can safely
67  * be used with strcmp() even when ut_line is not.
68  */
69 #define	RUN_LEVEL_MSG	"run-level "
70 #define	ACCTG_ON_MSG	"acctg on"
71 #define	ACCTG_OFF_MSG	"acctg off"
72 #define	RUNACCT_MSG	"runacct"
73 
74 #define	RLVLMSG_LEN	(sizeof (RUN_LEVEL_MSG) - 1)
75 
76 /*
77  * Records encountered are classified as one of the following:  corrupted;
78  * ok but devoid of interest to acctcon downstream;  ok and interesting;
79  * or ok and even redundant enough to latch onto a new alignment whilst
80  * recovering from a corruption.
81  * The ordering among these four symbolic values is significant.
82  */
83 typedef enum {
84 	INRANGE_ERR = -1,
85 	INRANGE_DROP,
86 	INRANGE_PASS,
87 	INRANGE_ALIGNED
88 } inrange_t;
89 
90 /* input filenames and record numbers, for diagnostics only */
91 #define	STDIN_NAME	"<stdin>"
92 static char	*cur_input_name;
93 static off_t	recin;
94 
95 static FILE	*Wtmpx, *Temp;
96 
97 struct	dtab
98 {
99 	off_t	d_off1;		/* file offset start */
100 	off_t	d_off2;		/* file offset stop */
101 	time_t	d_adj;		/* time adjustment */
102 	struct dtab *d_ndp;	/* next record */
103 };
104 
105 static struct	dtab	*Fdp;	/* list header */
106 static struct	dtab	*Ldp;	/* list trailer */
107 
108 static time_t 	lastmonth, nextmonth;
109 
110 static struct	futmpx	Ut, Ut2;
111 
112 static int winp(FILE *, struct futmpx *);
113 static void mkdtab(off_t);
114 static void setdtab(off_t, struct futmpx *, struct futmpx *);
115 static void adjust(off_t, struct futmpx *);
116 static int invalid(char *);
117 static void scanfile(void);
118 static inrange_t inrange(void);
119 static void wcomplain(char *);
120 
121 int
122 main(int argc, char **argv)
123 {
124 	time_t tloc;
125 	struct tm *tmp;
126 	int year;
127 	int month;
128 	off_t rectmpin;
129 
130 	(void) setlocale(LC_ALL, "");
131 	setbuf(stdout, NULL);
132 
133 	(void) time(&tloc);
134 	tmp = localtime(&tloc);
135 	year = tmp->tm_year;
136 	month = tmp->tm_mon + 1;
137 	lastmonth = ((year + 1900 - 1970) * 365 +
138 	    (month - 1) * 30) * DAYEPOCH;
139 	nextmonth = ((year + 1900 - 1970) * 365 +
140 	    (month + 1) * 30) * DAYEPOCH;
141 
142 	if (argc < 2) {
143 		argv[argc] = "-";
144 		argc++;
145 	}
146 
147 	/*
148 	 * Almost all system call failures in this program are unrecoverable
149 	 * and therefore fatal.  Typical causes might be lack of memory or
150 	 * of space in a filesystem.  If necessary, the system administrator
151 	 * can invoke /usr/lib/acct/runacct interactively after making room
152 	 * to complete the remaining phases of last night's accounting.
153 	 */
154 	if ((Temp = tmpfile()) == NULL) {
155 		perror("Cannot create temporary file");
156 		return (EXIT_FAILURE);
157 	}
158 
159 	while (--argc > 0) {
160 		argv++;
161 		if (strcmp(*argv, "-") == 0) {
162 			Wtmpx = stdin;
163 			cur_input_name = STDIN_NAME;
164 		} else if ((Wtmpx = fopen(*argv, "r")) == NULL) {
165 			(void) fprintf(stderr, "Cannot open %s: %s\n",
166 			    *argv, strerror(errno));
167 			return (EXIT_FAILURE);
168 		} else {
169 			cur_input_name = *argv;
170 		}
171 		/*
172 		 * Filter records reading from current input stream Wtmpx,
173 		 * writing to Temp.
174 		 */
175 		scanfile();
176 
177 		if (Wtmpx != stdin)
178 			(void) fclose(Wtmpx);
179 	}
180 	/* flush and rewind Temp for readback */
181 	if (fflush(Temp) != 0) {
182 		perror("<temporary file>: fflush");
183 		return (EXIT_FAILURE);
184 	}
185 	if (fseeko(Temp, (off_t)0L, SEEK_SET) != 0) {
186 		perror("<temporary file>: seek");
187 		return (EXIT_FAILURE);
188 	}
189 	/* second pass: apply time adjustments */
190 	rectmpin = 0;
191 	while (winp(Temp, &Ut)) {
192 		adjust(rectmpin, &Ut);
193 		rectmpin += UTRSZ;
194 		if (fwrite(&Ut, UTRSZ, 1, stdout) < 1) {
195 			perror("<stdout>: fwrite");
196 			return (EXIT_FAILURE);
197 		}
198 	}
199 	(void) fclose(Temp);
200 	/*
201 	 * Detect if we've run out of space (say) and exit unsuccessfully
202 	 * so that downstream accounting utilities won't start processing an
203 	 * incomplete tmpwtmp file.
204 	 */
205 	if (fflush(stdout) != 0) {
206 		perror("<stdout>: fflush");
207 		return (EXIT_FAILURE);
208 	}
209 	return (EXIT_SUCCESS);
210 }
211 
212 static int
213 winp(FILE *f, struct futmpx *w)
214 {
215 	if (fread(w, (size_t)UTRSZ, (size_t)1, f) != 1)
216 		return (0);
217 	if ((w->ut_type >= EMPTY) && (w->ut_type <= UTMAXTYPE))
218 		return (1);
219 	else {
220 		(void) fprintf(stderr, "Bad temp file at offset %lld\n",
221 		    (longlong_t)(ftell(f) - UTRSZ));
222 		/*
223 		 * If input was corrupt, neither ut_line nor ut_user can be
224 		 * relied on to be \0-terminated.  Even fixing the precision
225 		 * does not entirely guard against this.
226 		 */
227 		(void) fprintf(stderr,
228 		    "ut_line \"%-12.12s\" ut_user \"%-8.8s\" ut_xtime %ld\n",
229 		    w->ut_line, w->ut_user, (long)w->ut_xtime);
230 		exit(EXIT_FAILURE);
231 	}
232 	/* NOTREACHED */
233 }
234 
235 static void
236 mkdtab(off_t p)
237 {
238 
239 	struct dtab *dp;
240 
241 	dp = Ldp;
242 	if (dp == NULL) {
243 		dp = calloc(sizeof (struct dtab), 1);
244 		if (dp == NULL) {
245 			(void) fprintf(stderr, "out of memory\n");
246 			exit(EXIT_FAILURE);
247 		}
248 		Fdp = Ldp = dp;
249 	}
250 	dp->d_off1 = p;
251 }
252 
253 static void
254 setdtab(off_t p, struct futmpx *w1, struct futmpx *w2)
255 {
256 	struct dtab *dp;
257 
258 	if ((dp = Ldp) == NULL) {
259 		(void) fprintf(stderr, "no dtab\n");
260 		exit(EXIT_FAILURE);
261 	}
262 	dp->d_off2 = p;
263 	dp->d_adj = w2->ut_xtime - w1->ut_xtime;
264 	if ((Ldp = calloc(sizeof (struct dtab), 1)) == NULL) {
265 		(void) fprintf(stderr, "out of memory\n");
266 		exit(EXIT_FAILURE);
267 	}
268 	Ldp->d_off1 = dp->d_off1;
269 	dp->d_ndp = Ldp;
270 }
271 
272 static void
273 adjust(off_t p, struct futmpx *w)
274 {
275 
276 	off_t pp;
277 	struct dtab *dp;
278 
279 	pp = p;
280 
281 	for (dp = Fdp; dp != NULL; dp = dp->d_ndp) {
282 		if (dp->d_adj == 0)
283 			continue;
284 		if (pp >= dp->d_off1 && pp <= dp->d_off2)
285 			w->ut_xtime += dp->d_adj;
286 	}
287 }
288 
289 /*
290  * invalid() determines whether the name field adheres to the criteria
291  * set forth in acctcon1.  If returns VALID if the name is ok, or
292  * INVALID if the name violates conventions.
293  */
294 
295 static int
296 invalid(char *name)
297 {
298 	int	i;
299 
300 	for (i = 0; i < NSZ; i++) {
301 		if (name[i] == '\0')
302 			return (VALID);
303 		if (! (isalnum(name[i]) || (name[i] == '$') ||
304 		    (name[i] == ' ') || (name[i] == '.') ||
305 		    (name[i] == '_') || (name[i] == '-'))) {
306 			return (INVALID);
307 		}
308 	}
309 	return (VALID);
310 }
311 
312 /*
313  * scanfile:
314  * 1)  	reads the current input file
315  * 2)   filters for process records in time range of interest and for
316  *      other types of records deemed interesting to acctcon downstream
317  * 3)   picks up time changes with setdtab() if in multiuser mode, which
318  *      will be applied when the temp file is read back
319  * 4)   changes bad login names to INVALID
320  * 5)   recovers from common cases of wtmpx corruption (loss of record
321  *      alignment).
322  * All of the static globals are used directly or indirectly.
323  *
324  * When wtmpfix is asked to process several input files in succession,
325  * some state needs to be preserved from one scanfile() invocation to the
326  * next.  Aside from the temp file position, we remember whether we were
327  * in multi-user mode or not.  Absent evidence to the contrary, we begin
328  * processing assuming multi-user mode, because runacct's wtmpx rotation
329  * normally gives us a file recently initialized by utmp2wtmp(1M) with no
330  * older RUN_LVL records surviving.
331  */
332 
333 static void
334 scanfile()
335 {
336 	struct stat Wtstat;
337 	off_t residue = 0;	/* input file size mod UTRSZ */
338 	/*
339 	 * lastok will be the offset of the beginning of the most recent
340 	 * manifestly plausible and interesting input record in the current
341 	 * input file, if any.
342 	 * An invariant at loop entry is -UTRSZ <= lastok <= recin - UTRSZ.
343 	 */
344 	off_t lastok = -(off_t)UTRSZ;
345 	static off_t rectmp;	/* current temp file position */
346 	static boolean_t multimode = B_TRUE; /* multi-user RUN_LVL in force */
347 	inrange_t is_ok;	/* caches inrange() result */
348 	/*
349 	 * During normal operation, records are of interest and copied to
350 	 * the output when is_ok >= INRANGE_PASS, ignored and dropped when
351 	 * is_ok == INRANGE_DROP, and evidence of corruption otherwise.
352 	 * While we are trying to recover from a corruption and hunting for
353 	 * records with sufficient redundancy to confirm that we have reached
354 	 * proper alignment again, we'll want is_ok >= INRANGE_ALIGNED.
355 	 * The value of want_ok is the minimum inrange() result of current
356 	 * interest.  It is raised to INRANGE_ALIGNED during ongoing recovery
357 	 * and dropped back to INRANGE_PASS when we have recovered alignment.
358 	 */
359 	inrange_t want_ok = INRANGE_PASS;
360 	boolean_t recovered = B_FALSE; /* true after a successful recovery */
361 	int n;
362 
363 	if (fstat(fileno(Wtmpx), &Wtstat) == -1) {
364 		(void) fprintf(stderr,
365 		    "Cannot stat %s (will read sequentially): %s\n",
366 		    cur_input_name, strerror(errno));
367 	} else if ((Wtstat.st_mode & S_IFMT) == S_IFREG) {
368 		residue = Wtstat.st_size % UTRSZ;
369 	}
370 
371 	/* if residue != 0, part of the file may be misaligned */
372 	for (recin = 0;
373 	    ((n = fread(&Ut, (size_t)UTRSZ, (size_t)1, Wtmpx)) > 0) ||
374 	    (residue > 0);
375 	    recin += UTRSZ) {
376 		if (n == 0) {
377 			/*
378 			 * Implying residue > 0 and want_ok == INRANGE_PASS.
379 			 * It isn't worth telling an I/O error from EOF here.
380 			 * But one case is worth catching to avoid issuing a
381 			 * confusing message below.  When the previous record
382 			 * had been ok, we just drop the current truncated
383 			 * record and bail out of the loop -- no seeking back.
384 			 */
385 			if (lastok == recin - UTRSZ) {
386 				wcomplain("file ends in mid-record, "
387 				    "final partial record dropped");
388 				break;
389 			} else {
390 				wcomplain("file ends in mid-record");
391 				/* handled below like a corrupted record */
392 				is_ok = INRANGE_ERR;
393 			}
394 		} else
395 			is_ok = inrange();
396 
397 		/* alignment recovery logic */
398 		if ((residue > 0) && (is_ok == INRANGE_ERR)) {
399 			/*
400 			 * "Let's go back to the last place where we knew
401 			 * where we were..."
402 			 * In fact, if the last record had been fine and we
403 			 * know there's at least one whole record ahead, we
404 			 * might move forward here  (by residue bytes, less
405 			 * than one record's worth).  In any case, we align
406 			 * ourselves to an integral number of records before
407 			 * the end of the file.
408 			 */
409 			wcomplain("suspecting misaligned records, "
410 			    "repositioning");
411 			recin = lastok + UTRSZ + residue;
412 			residue = 0;
413 			if (fseeko(Wtmpx, recin, SEEK_SET) != 0) {
414 				(void) fprintf(stderr, "%s: seek: %s\n",
415 				    cur_input_name, strerror(errno));
416 				exit(EXIT_FAILURE);
417 			}
418 			wcomplain("starting re-scan");
419 			/*
420 			 * While want_ok is elevated, only unequivocal records
421 			 * with inrange() == INRANGE_ALIGNED will be admitted
422 			 * to latch onto the tentative new alignment.
423 			 */
424 			want_ok = INRANGE_ALIGNED;
425 			/*
426 			 * Compensate for the loop continuation.  Doing
427 			 * it this way gets the correct offset reported
428 			 * in the re-scan message above.
429 			 */
430 			recin -= UTRSZ;
431 			continue;
432 		}
433 		/* assert: residue == 0 or is_ok >= INRANGE_DROP here */
434 		if (is_ok < want_ok)
435 			/* record of no further interest */
436 			continue;
437 		if (want_ok == INRANGE_ALIGNED) {
438 			wcomplain("now recognizing aligned records again");
439 			want_ok = INRANGE_PASS;
440 			recovered = B_TRUE;
441 		}
442 		/*
443 		 * lastok must track recin whenever the current record is
444 		 * being processed and written out to our temp file, to avoid
445 		 * reprocessing any bits already done when we readjust our
446 		 * alignment.
447 		 */
448 		lastok = recin;
449 
450 		/* now we have a good wtmpx record, do more processing */
451 
452 		if (rectmp == 0 || Ut.ut_type == BOOT_TIME)
453 			mkdtab(rectmp);
454 		if (Ut.ut_type == RUN_LVL) {
455 			/* inrange() already checked the "run-level " part */
456 			if (Ut.ut_line[RLVLMSG_LEN] == 'S')
457 				multimode = B_FALSE;
458 			else if ((Ut.ut_line[RLVLMSG_LEN] == '2') ||
459 			    (Ut.ut_line[RLVLMSG_LEN] == '3') ||
460 			    (Ut.ut_line[RLVLMSG_LEN] == '4'))
461 				multimode = B_TRUE;
462 		}
463 		if (invalid(Ut.ut_name) == INVALID) {
464 			(void) fprintf(stderr,
465 			    "wtmpfix: logname \"%*.*s\" changed "
466 			    "to \"INVALID\"\n", OUTPUT_NSZ,
467 			    OUTPUT_NSZ, Ut.ut_name);
468 			(void) strncpy(Ut.ut_name, "INVALID", NSZ);
469 		}
470 		/*
471 		 * Special case: OLD_TIME should be immediately followed by
472 		 * NEW_TIME.
473 		 * We make no attempt at alignment recovery between these
474 		 * two: if there's junk at this point in the input, then
475 		 * a NEW_TIME seen after the junk probably won't be the one
476 		 * we are looking for.
477 		 */
478 		if (Ut.ut_type == OLD_TIME) {
479 			/*
480 			 * Make recin refer to the expected NEW_TIME.
481 			 * Loop continuation will increment it again
482 			 * for the record we're about to read now.
483 			 */
484 			recin += UTRSZ;
485 			if (!fread(&Ut2, (size_t)UTRSZ, (size_t)1, Wtmpx)) {
486 				wcomplain("input truncated after OLD_TIME - "
487 				    "giving up");
488 				exit(EXIT_FAILURE);
489 			}
490 			/*
491 			 * Rudimentary NEW_TIME sanity check.  Not as thorough
492 			 * as in inrange(), but then we have redundancy from
493 			 * context here, since we're just after a plausible
494 			 * OLD_TIME record.
495 			 */
496 			if ((Ut2.ut_type != NEW_TIME) ||
497 			    (strcmp(Ut2.ut_line, NTIME_MSG) != 0)) {
498 				wcomplain("NEW_TIME expected but missing "
499 				    "after OLD_TIME - giving up");
500 				exit(EXIT_FAILURE);
501 			}
502 			lastok = recin;
503 			if (multimode == B_TRUE)
504 				setdtab(rectmp, &Ut, &Ut2);
505 			rectmp += 2 * UTRSZ;
506 			if ((fwrite(&Ut, UTRSZ, 1, Temp) < 1) ||
507 			    (fwrite(&Ut2, UTRSZ, 1, Temp) < 1)) {
508 				perror("<temporary file>: fwrite");
509 				exit(EXIT_FAILURE);
510 			}
511 			continue;
512 		}
513 		if (fwrite(&Ut, UTRSZ, 1, Temp) < 1) {
514 			perror("<temporary file>: fwrite");
515 			exit(EXIT_FAILURE);
516 		}
517 		rectmp += UTRSZ;
518 	}
519 	if (want_ok == INRANGE_ALIGNED) {
520 		wcomplain("EOF reached without recognizing another aligned "
521 		    "record with certainty. This file may need to be "
522 		    "repaired by hand.\n");
523 	} else if (recovered == B_TRUE) {
524 		/*
525 		 * There may have been a number of wcomplain() messages
526 		 * since we reported about the re-scan, so it bears repeating
527 		 * at the end that not all was well.
528 		 */
529 		wcomplain("EOF reached after recovering from corruption "
530 		    "in the middle of the file.  This file may need to be "
531 		    "repaired by hand.\n");
532 	}
533 }
534 
535 /*
536  * inrange: inspect what we hope to be one wtmpx record.
537  * Globals:  Ut, lastmonth, nextmonth;  recin, cur_input_name (diagnostics)
538  * Return values:
539  * INRANGE_ERR     -- an inconsistency was detected, input file corrupted
540  * INRANGE_DROP    -- Ut appears consistent but isn't of interest
541  *                    (of process type and outside the time range we want)
542  * INRANGE_PASS    -- Ut appears consistent and this record is of interest
543  * INRANGE_ALIGNED -- same, and it is also redundant enough to be sure
544  *                    that we're correctly aligned on record boundaries
545  */
546 #define	UNEXPECTED_UT_PID \
547 	(Ut.ut_pid != 0) || \
548 	(Ut.ut_exit.e_termination != 0) || \
549 	(Ut.ut_exit.e_exit != 0)
550 
551 static inrange_t
552 inrange()
553 {
554 	/* pid_t is signed so that fork() can return -1.  Exploit this. */
555 	if (Ut.ut_pid < 0) {
556 		wcomplain("negative pid");
557 		return (INRANGE_ERR);
558 	}
559 
560 	/* the legal values for ut_type are enumerated in <utmp.h> */
561 	switch (Ut.ut_type) {
562 	case EMPTY:
563 		if (UNEXPECTED_UT_PID) {
564 			wcomplain("nonzero pid or status in EMPTY record");
565 			return (INRANGE_ERR);
566 		}
567 		/*
568 		 * We'd like to have Ut.ut_user[0] == '\0' here, but sadly
569 		 * this isn't always so, so we can't rely on it.
570 		 */
571 		return (INRANGE_DROP);
572 	case RUN_LVL:
573 		/* ut_line must have come from the RUNLVL_MSG pattern */
574 		if (strncmp(Ut.ut_line, RUN_LEVEL_MSG, RLVLMSG_LEN) != 0) {
575 			wcomplain("RUN_LVL record doesn't say `"
576 			    RUN_LEVEL_MSG "'");
577 			return (INRANGE_ERR);
578 		}
579 		/*
580 		 * The ut_pid, termination, and exit status fields have
581 		 * special meaning in this case, and none of them is
582 		 * suitable for checking.  And we won't insist on ut_user
583 		 * to always be an empty string.
584 		 */
585 		return (INRANGE_ALIGNED);
586 	case BOOT_TIME:
587 		if (UNEXPECTED_UT_PID) {
588 			wcomplain("nonzero pid or status in BOOT_TIME record");
589 			return (INRANGE_ERR);
590 		}
591 		if (strcmp(Ut.ut_line, BOOT_MSG) != 0) {
592 			wcomplain("BOOT_TIME record doesn't say `"
593 			    BOOT_MSG "'");
594 			return (INRANGE_ERR);
595 		}
596 		return (INRANGE_ALIGNED);
597 	case OLD_TIME:
598 		if (UNEXPECTED_UT_PID) {
599 			wcomplain("nonzero pid or status in OLD_TIME record");
600 			return (INRANGE_ERR);
601 		}
602 		if (strcmp(Ut.ut_line, OTIME_MSG) != 0) {
603 			wcomplain("OLD_TIME record doesn't say `"
604 			    OTIME_MSG "'");
605 			return (INRANGE_ERR);
606 		}
607 		return (INRANGE_ALIGNED);
608 	case NEW_TIME:
609 		/*
610 		 * We don't actually expect to see any here.  If they follow
611 		 * an OLD_TIME record as they should, they'll be handled on
612 		 * the fly in scanfile().  But we might still run into one
613 		 * if the input is somehow corrupted.
614 		 */
615 		if (UNEXPECTED_UT_PID) {
616 			wcomplain("nonzero pid or status in NEW_TIME record");
617 			return (INRANGE_ERR);
618 		}
619 		if (strcmp(Ut.ut_line, NTIME_MSG) != 0) {
620 			wcomplain("NEW_TIME record doesn't say `"
621 			    NTIME_MSG "'");
622 			return (INRANGE_ERR);
623 		}
624 		return (INRANGE_ALIGNED);
625 
626 	/* the four *_PROCESS ut_types have a lot in common */
627 	case USER_PROCESS:
628 		/*
629 		 * Catch two special cases first: psradm records have no id
630 		 * and no pid, while root login over FTP may not have a
631 		 * valid ut_user and may have garbage in ut_id[3].
632 		 */
633 		if ((strcmp(Ut.ut_user, "psradm") == 0) &&
634 		    (Ut.ut_id[0] == '\0') &&
635 		    (Ut.ut_pid > 0)) {
636 			if ((Ut.ut_xtime > lastmonth) &&
637 			    (Ut.ut_xtime < nextmonth)) {
638 				return (INRANGE_ALIGNED);
639 			} else {
640 				return (INRANGE_DROP);
641 			}
642 		}
643 		if ((Ut.ut_user[0] == '\0') &&
644 		    (strncmp(Ut.ut_id, "ftp", 3) == 0) &&
645 		    (strncmp(Ut.ut_line, "ftp", 3) == 0)) {
646 			if ((Ut.ut_xtime > lastmonth) &&
647 			    (Ut.ut_xtime < nextmonth)) {
648 				return (INRANGE_ALIGNED);
649 			} else {
650 				return (INRANGE_DROP);
651 			}
652 		}
653 		/* FALLTHROUGH */
654 	case LOGIN_PROCESS:
655 		if (Ut.ut_user[0] == '\0') {
656 			wcomplain("missing username in process record");
657 			return (INRANGE_ERR);
658 		}
659 		/* FALLTHROUGH */
660 	case INIT_PROCESS:
661 		/*
662 		 * INIT_PROCESS and DEAD_PROCESS records can come with an
663 		 * empty ut_user in degenerate cases (e.g. syntax errors
664 		 * like a comment-only process field in /etc/inittab).
665 		 * But in an INIT_PROCESS, LOGIN_PROCESS, or USER_PROCESS
666 		 * record, we expect a respectable ut_pid.
667 		 */
668 		if (Ut.ut_pid == 0) {
669 			wcomplain("null pid in process record");
670 			return (INRANGE_ERR);
671 		}
672 		/* FALLTHROUGH */
673 	case DEAD_PROCESS:
674 		/*
675 		 * DEAD_PROCESS records with a null ut_pid can be produced
676 		 * by gnome-terminal (normally seen in utmpx only, but they
677 		 * can leak into wtmpx in rare circumstances).
678 		 * Unfortunately, ut_id can't be relied on to contain
679 		 * anything in particular.  (E.g., sshd might leave it
680 		 * 0-initialized.)  This leaves almost no verifiable
681 		 * redundancy here beyond the ut_type.
682 		 * At least we insist on a reasonable timestamp.
683 		 */
684 		if (Ut.ut_xtime <= 0) {
685 			wcomplain("non-positive time in process record");
686 			return (INRANGE_ERR);
687 		}
688 		if ((Ut.ut_xtime > lastmonth) &&
689 		    (Ut.ut_xtime < nextmonth)) {
690 			return (INRANGE_PASS);
691 		} else {
692 			return (INRANGE_DROP);
693 		}
694 	case ACCOUNTING:
695 		/*
696 		 * If we recognize one of the three reason strings passed
697 		 * by the /usr/lib/acct shell scripts to acctwtmp, we
698 		 * exploit the available redundancy they offer.  But
699 		 * acctwtmp could have been invoked by custom scripts or
700 		 * interactively with other reason strings in the first
701 		 * argument, so anything we don't recognize does not
702 		 * constitute evidence for corruption.
703 		 */
704 		if ((strcmp(Ut.ut_line, RUNACCT_MSG) != 0) &&
705 		    (strcmp(Ut.ut_line, ACCTG_ON_MSG) != 0) &&
706 		    (strcmp(Ut.ut_line, ACCTG_OFF_MSG) != 0)) {
707 			return (INRANGE_DROP);
708 		}
709 		return (INRANGE_ALIGNED);
710 	case DOWN_TIME:
711 		if (UNEXPECTED_UT_PID) {
712 			wcomplain("nonzero pid or status in DOWN_TIME record");
713 			return (INRANGE_ERR);
714 		}
715 		if (strcmp(Ut.ut_line, DOWN_MSG) != 0) {
716 			wcomplain("DOWN_TIME record doesn't say `"
717 			    DOWN_MSG "'");
718 			return (INRANGE_ERR);
719 		}
720 		return (INRANGE_ALIGNED);
721 	default:
722 		wcomplain("ut_type out of range");
723 		return (INRANGE_ERR);
724 	}
725 	/* NOTREACHED */
726 }
727 
728 static void
729 wcomplain(char *msg)
730 {
731 	(void) fprintf(stderr, "%s: offset %lld: %s\n", cur_input_name,
732 	    (longlong_t)recin, msg);
733 }
734