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 2007 Sun Microsystems, Inc. All rights reserved.
23 * Use is subject to license terms.
24 *
25 * logadm/fn.c -- "filename" string module
26 *
27 * this file contains routines for the manipulation of filenames.
28 * they aren't particularly fast (at least they weren't designed
29 * for performance), but they are simple and put all the malloc/free
30 * stuff for these strings in a central place. most routines in
31 * logadm that return filenames return a struct fn, and most routines
32 * that return lists of strings return a struct fn_list.
33 */
34
35 #include <stdio.h>
36 #include <libintl.h>
37 #include <strings.h>
38 #include <sys/types.h>
39 #include <sys/stat.h>
40 #include "err.h"
41 #include "fn.h"
42
43 #define roundup(x, y) ((((x)+((y)-1))/(y))*(y))
44
45 /*
46 * constants controlling how we malloc space. bigger means fewer
47 * calls to malloc. smaller means less wasted space.
48 */
49 #define FN_MIN 1024 /* initial size of string buffers */
50 #define FN_MAX 10240 /* maximum size allowed before fatal "overflow" error */
51 #define FN_INC 1024 /* increments in buffer size as strings grow */
52
53 /* info created by fn_new(), private to this module */
54 struct fn {
55 char *fn_buf; /* first location in buf */
56 char *fn_buflast; /* last location in buf */
57 char *fn_rptr; /* read pointer (next unread character) */
58 char *fn_wptr; /* write pointer (points at null terminator) */
59 struct fn *fn_next; /* next in list */
60 struct stat fn_stbuf;
61 int fn_n;
62 };
63
64 /* info created by fn_list_new(), private to this module */
65 struct fn_list {
66 struct fn *fnl_first; /* first element of list */
67 struct fn *fnl_last; /* last element of list */
68 struct fn *fnl_rptr; /* read pointer for iterating through list */
69 };
70
71 /*
72 * fn_new -- create a new filename buffer, possibly with initial contents
73 *
74 * use like this:
75 * struct fn *fnp = fn_new("this is a string");
76 */
77 struct fn *
fn_new(const char * s)78 fn_new(const char *s)
79 {
80 struct fn *fnp = MALLOC(sizeof (struct fn));
81
82 fnp->fn_n = -1;
83 bzero(&fnp->fn_stbuf, sizeof (fnp->fn_stbuf));
84 fnp->fn_next = NULL;
85
86 /* if passed-in string contains at least 1 non-null character... */
87 if (s != NULL && *s) {
88 int len = strlen(s);
89 int buflen = roundup(len + 1, FN_INC);
90
91 /* start with buffer filled with passed-in string */
92 fnp->fn_buf = MALLOC(buflen);
93 fnp->fn_buflast = &fnp->fn_buf[buflen - 1];
94 (void) strlcpy(fnp->fn_buf, s, buflen);
95 fnp->fn_rptr = fnp->fn_buf;
96 fnp->fn_wptr = &fnp->fn_buf[len];
97 } else {
98 /* start with empty buffer */
99 fnp->fn_buf = MALLOC(FN_MIN);
100 fnp->fn_buflast = &fnp->fn_buf[FN_MIN - 1];
101 *fnp->fn_buf = '\0';
102 fnp->fn_rptr = fnp->fn_buf;
103 fnp->fn_wptr = fnp->fn_buf;
104 }
105
106 return (fnp);
107 }
108
109 /*
110 * fn_dup -- duplicate a filename buffer
111 */
112 struct fn *
fn_dup(struct fn * fnp)113 fn_dup(struct fn *fnp)
114 {
115 struct fn *ret = fn_new(fn_s(fnp));
116
117 ret->fn_n = fnp->fn_n;
118 ret->fn_stbuf = fnp->fn_stbuf;
119
120 return (ret);
121 }
122
123 /*
124 * fn_dirname -- return the dirname part of a filename
125 */
126 struct fn *
fn_dirname(struct fn * fnp)127 fn_dirname(struct fn *fnp)
128 {
129 char *ptr = NULL;
130 struct fn *ret;
131 char *buf;
132
133 buf = fn_s(fnp);
134
135 if (buf != NULL)
136 ptr = strrchr(buf, '/');
137 if (ptr == NULL || buf == NULL)
138 return (fn_new("."));
139 else {
140 *ptr = '\0';
141 ret = fn_new(buf);
142 *ptr = '/';
143 return (ret);
144 }
145 }
146
147 /*
148 * fn_setn -- set the "n" value for a filename
149 *
150 * the "n" value is initially -1, and is used by logadm to store
151 * the suffix for rotated log files. the function fn_list_popoldest()
152 * looks at these "n" values when sorting filenames to determine which
153 * old log file is the oldest and should be expired first.
154 */
155 void
fn_setn(struct fn * fnp,int n)156 fn_setn(struct fn *fnp, int n)
157 {
158 fnp->fn_n = n;
159 }
160
161 /*
162 * fn_setstat -- store a struct stat with a filename
163 *
164 * the glob functions typically fill in these struct stats since they
165 * have to stat while globbing anyway. just turned out to be a common
166 * piece of information that was conveniently stored with the associated
167 * filename.
168 */
169 void
fn_setstat(struct fn * fnp,struct stat * stp)170 fn_setstat(struct fn *fnp, struct stat *stp)
171 {
172 fnp->fn_stbuf = *stp;
173 }
174
175 /*
176 * fn_getstat -- return a pointer to the stat info stored by fn_setstat()
177 */
178 struct stat *
fn_getstat(struct fn * fnp)179 fn_getstat(struct fn *fnp)
180 {
181 return (&fnp->fn_stbuf);
182 }
183
184 /*
185 * fn_free -- free a filename buffer
186 */
187 void
fn_free(struct fn * fnp)188 fn_free(struct fn *fnp)
189 {
190 if (fnp) {
191 if (fnp->fn_buf)
192 FREE(fnp->fn_buf);
193 FREE(fnp);
194 }
195 }
196
197 /*
198 * fn_renew -- reset a filename buffer
199 *
200 * calling fn_renew(fnp, s) is the same as calling:
201 * fn_free(fnp);
202 * fn_new(s);
203 */
204 void
fn_renew(struct fn * fnp,const char * s)205 fn_renew(struct fn *fnp, const char *s)
206 {
207 fnp->fn_rptr = fnp->fn_wptr = fnp->fn_buf;
208 fn_puts(fnp, s);
209 }
210
211 /*
212 * fn_putc -- append a character to a filename
213 *
214 * this is the function that handles growing the filename buffer
215 * automatically and calling err() if it overflows.
216 */
217 void
fn_putc(struct fn * fnp,int c)218 fn_putc(struct fn *fnp, int c)
219 {
220 if (fnp->fn_wptr >= fnp->fn_buflast) {
221 int buflen = fnp->fn_buflast + 1 - fnp->fn_buf;
222 char *newbuf;
223 char *src;
224 char *dst;
225
226 /* overflow, allocate more space or die if at FN_MAX */
227 if (buflen >= FN_MAX)
228 err(0, "fn buffer overflow");
229 buflen += FN_INC;
230 newbuf = MALLOC(buflen);
231
232 /* copy string into new buffer */
233 src = fnp->fn_buf;
234 dst = newbuf;
235
236 /* just copy up to wptr, rest is history anyway */
237 while (src < fnp->fn_wptr)
238 *dst++ = *src++;
239 fnp->fn_rptr = &newbuf[fnp->fn_rptr - fnp->fn_buf];
240 FREE(fnp->fn_buf);
241 fnp->fn_buf = newbuf;
242 fnp->fn_buflast = &fnp->fn_buf[buflen - 1];
243 fnp->fn_wptr = dst;
244 }
245 *fnp->fn_wptr++ = c;
246 *fnp->fn_wptr = '\0';
247 }
248
249 /*
250 * fn_puts -- append a string to a filename
251 */
252 void
fn_puts(struct fn * fnp,const char * s)253 fn_puts(struct fn *fnp, const char *s)
254 {
255 /* non-optimal, but simple! */
256 while (s != NULL && *s)
257 fn_putc(fnp, *s++);
258 }
259
260 /*
261 * fn_putfn -- append a filename buffer to a filename
262 */
263 void
fn_putfn(struct fn * fnp,struct fn * srcfnp)264 fn_putfn(struct fn *fnp, struct fn *srcfnp)
265 {
266 int c;
267
268 fn_rewind(srcfnp);
269 while (c = fn_getc(srcfnp))
270 fn_putc(fnp, c);
271 }
272
273 /*
274 * fn_rewind -- reset the "read pointer" to the beginning of a filename
275 */
276 void
fn_rewind(struct fn * fnp)277 fn_rewind(struct fn *fnp)
278 {
279 fnp->fn_rptr = fnp->fn_buf;
280 }
281
282 /*
283 * fn_getc -- "read" the next character of a filename
284 */
285 int
fn_getc(struct fn * fnp)286 fn_getc(struct fn *fnp)
287 {
288 if (fnp->fn_rptr > fnp->fn_buflast || *fnp->fn_rptr == '\0')
289 return (0);
290
291 return (*fnp->fn_rptr++);
292 }
293
294 /*
295 * fn_peekc -- "peek" at the next character of a filename
296 */
297 int
fn_peekc(struct fn * fnp)298 fn_peekc(struct fn *fnp)
299 {
300 if (fnp->fn_rptr > fnp->fn_buflast || *fnp->fn_rptr == '\0')
301 return (0);
302
303 return (*fnp->fn_rptr);
304 }
305
306 /*
307 * fn_s -- return a pointer to a null-terminated string containing the filename
308 */
309 char *
fn_s(struct fn * fnp)310 fn_s(struct fn *fnp)
311 {
312 return (fnp->fn_buf);
313 }
314
315 /*
316 * fn_isgz -- return true if filename is *.gz
317 */
318 boolean_t
fn_isgz(struct fn * fnp)319 fn_isgz(struct fn *fnp)
320 {
321 size_t len;
322 char *name;
323
324 name = fnp->fn_buf;
325 len = strlen(name);
326 if (len > 3 && strcmp(name + len - 3, ".gz") == 0)
327 return (B_TRUE);
328 else
329 return (B_FALSE);
330 }
331
332 /*
333 * fn_list_new -- create a new list of filenames
334 *
335 * by convention, an empty list is represented by an allocated
336 * struct fn_list which contains a NULL linked list, rather than
337 * by a NULL fn_list pointer. in other words:
338 *
339 * struct fn_list *fnlp = some_func_returning_a_list();
340 * if (fn_list_empty(fnlp))
341 * ...
342 *
343 * is preferable to checking if the fnlp returned is NULL.
344 */
345 struct fn_list *
fn_list_new(const char * const * slist)346 fn_list_new(const char * const *slist)
347 {
348 struct fn_list *fnlp = MALLOC(sizeof (struct fn_list));
349
350 fnlp->fnl_first = fnlp->fnl_last = fnlp->fnl_rptr = NULL;
351
352 while (slist && *slist)
353 fn_list_adds(fnlp, *slist++);
354
355 return (fnlp);
356 }
357
358 /*
359 * fn_list_dup -- duplicate a list of filenames
360 */
361 struct fn_list *
fn_list_dup(struct fn_list * fnlp)362 fn_list_dup(struct fn_list *fnlp)
363 {
364 struct fn_list *ret = fn_list_new(NULL);
365 struct fn *fnp;
366
367 fn_list_rewind(fnlp);
368 while ((fnp = fn_list_next(fnlp)) != NULL)
369 fn_list_addfn(ret, fn_dup(fnp));
370
371 return (ret);
372 }
373
374 /*
375 * fn_list_free -- free a list of filenames
376 */
377 void
fn_list_free(struct fn_list * fnlp)378 fn_list_free(struct fn_list *fnlp)
379 {
380 struct fn *fnp;
381
382 fn_list_rewind(fnlp);
383 while ((fnp = fn_list_next(fnlp)) != NULL)
384 fn_free(fnp);
385 FREE(fnlp);
386 }
387
388 /*
389 * fn_list_adds -- add a string to a list of filenames
390 */
391 void
fn_list_adds(struct fn_list * fnlp,const char * s)392 fn_list_adds(struct fn_list *fnlp, const char *s)
393 {
394 fn_list_addfn(fnlp, fn_new(s));
395 }
396
397 /*
398 * fn_list_addfn -- add a filename (i.e. struct fn *) to a list of filenames
399 */
400 void
fn_list_addfn(struct fn_list * fnlp,struct fn * fnp)401 fn_list_addfn(struct fn_list *fnlp, struct fn *fnp)
402 {
403 fnp->fn_next = NULL;
404 if (fnlp->fnl_first == NULL)
405 fnlp->fnl_first = fnlp->fnl_last = fnlp->fnl_rptr = fnp;
406 else {
407 fnlp->fnl_last->fn_next = fnp;
408 fnlp->fnl_last = fnp;
409 }
410 }
411
412 /*
413 * fn_list_rewind -- reset the "read pointer" to the beginning of the list
414 */
415 void
fn_list_rewind(struct fn_list * fnlp)416 fn_list_rewind(struct fn_list *fnlp)
417 {
418 fnlp->fnl_rptr = fnlp->fnl_first;
419 }
420
421 /*
422 * fn_list_next -- return the filename at the read pointer and advance it
423 */
424 struct fn *
fn_list_next(struct fn_list * fnlp)425 fn_list_next(struct fn_list *fnlp)
426 {
427 struct fn *ret = fnlp->fnl_rptr;
428
429 if (fnlp->fnl_rptr == fnlp->fnl_last)
430 fnlp->fnl_rptr = NULL;
431 else if (fnlp->fnl_rptr != NULL)
432 fnlp->fnl_rptr = fnlp->fnl_rptr->fn_next;
433
434 return (ret);
435 }
436
437 /*
438 * fn_list_addfn_list -- move filenames from fnlp2 to end of fnlp
439 *
440 * frees fnlp2 after moving all the filenames off of it.
441 */
442 void
fn_list_addfn_list(struct fn_list * fnlp,struct fn_list * fnlp2)443 fn_list_addfn_list(struct fn_list *fnlp, struct fn_list *fnlp2)
444 {
445 struct fn *fnp2 = fnlp2->fnl_first;
446 struct fn *nextfnp2;
447
448 /* for each fn in the second list... */
449 while (fnp2) {
450 if (fnp2 == fnlp2->fnl_last)
451 nextfnp2 = NULL;
452 else
453 nextfnp2 = fnp2->fn_next;
454
455 /* append it to the first list */
456 fn_list_addfn(fnlp, fnp2);
457
458 fnp2 = nextfnp2;
459 }
460 /* all the fn's were moved off the second list */
461 fnlp2->fnl_first = fnlp2->fnl_last = fnlp2->fnl_rptr = NULL;
462
463 /* done with the second list */
464 fn_list_free(fnlp2);
465 }
466
467 /*
468 * fn_list_appendrange -- append a range of characters to each filename in list
469 *
470 * range of characters appended is the character at *s up to but not including
471 * the character at *limit. NULL termination is not required.
472 */
473 void
fn_list_appendrange(struct fn_list * fnlp,const char * s,const char * limit)474 fn_list_appendrange(struct fn_list *fnlp, const char *s, const char *limit)
475 {
476 struct fn *fnp = fnlp->fnl_first;
477 struct fn *nextfnp;
478 const char *ptr;
479
480 /* for each fn in the list... */
481 while (fnp != NULL) {
482 if (fnp == fnlp->fnl_last)
483 nextfnp = NULL;
484 else
485 nextfnp = fnp->fn_next;
486
487 /* append the range */
488 for (ptr = s; ptr < limit; ptr++)
489 fn_putc(fnp, *ptr);
490
491 fnp = nextfnp;
492 }
493 }
494
495 /*
496 * fn_list_totalsize -- sum up all the st_size fields in the stat structs
497 */
498 off_t
fn_list_totalsize(struct fn_list * fnlp)499 fn_list_totalsize(struct fn_list *fnlp)
500 {
501 struct fn *fnp;
502 off_t ret = 0;
503
504 fn_list_rewind(fnlp);
505 while ((fnp = fn_list_next(fnlp)) != NULL)
506 ret += fnp->fn_stbuf.st_size;
507
508 return (ret);
509 }
510
511 /*
512 * fn_list_popoldest -- remove oldest file from list and return it
513 *
514 * this function uses the "n" values (set by fn_setn()) to determine
515 * which file is oldest, or when there's a tie it turns to the modification
516 * times in the stat structs, or when there's still a tie lexical sorting.
517 */
518 struct fn *
fn_list_popoldest(struct fn_list * fnlp)519 fn_list_popoldest(struct fn_list *fnlp)
520 {
521 struct fn *fnp;
522 struct fn *ret = NULL;
523
524 fn_list_rewind(fnlp);
525 while ((fnp = fn_list_next(fnlp)) != NULL)
526 if (ret == NULL)
527 ret = fnp;
528 else if (fnp->fn_n > ret->fn_n ||
529 (fnp->fn_n == ret->fn_n &&
530 (fnp->fn_stbuf.st_mtime < ret->fn_stbuf.st_mtime ||
531 ((fnp->fn_stbuf.st_mtime == ret->fn_stbuf.st_mtime &&
532 strcmp(fnp->fn_buf, ret->fn_buf) > 0)))))
533 ret = fnp;
534
535 if (ret == NULL)
536 return (NULL);
537
538 /* oldest file is ret, remove it from list */
539 if (fnlp->fnl_first == ret) {
540 fnlp->fnl_first = ret->fn_next;
541 } else {
542 fn_list_rewind(fnlp);
543 while ((fnp = fn_list_next(fnlp)) != NULL) {
544 if (fnp->fn_next == ret) {
545 fnp->fn_next = ret->fn_next;
546 if (fnlp->fnl_last == ret)
547 fnlp->fnl_last = fnp;
548 break;
549 }
550 }
551 }
552
553 ret->fn_next = NULL;
554 return (ret);
555 }
556
557 /*
558 * fn_list_empty -- true if the list is empty
559 */
560 boolean_t
fn_list_empty(struct fn_list * fnlp)561 fn_list_empty(struct fn_list *fnlp)
562 {
563 return (fnlp->fnl_first == NULL);
564 }
565
566 /*
567 * fn_list_count -- return number of filenames in list
568 */
569 int
fn_list_count(struct fn_list * fnlp)570 fn_list_count(struct fn_list *fnlp)
571 {
572 int ret = 0;
573
574 /*
575 * if this operation were more common, we'd cache the count
576 * in the struct fn_list, but it isn't very common so we just
577 * count 'em up here
578 */
579 fn_list_rewind(fnlp);
580 while (fn_list_next(fnlp) != NULL)
581 ret++;
582
583 return (ret);
584 }
585