Annotation of mandoc/mansearch.c, Revision 1.50
1.50 ! schwarze 1: /* $Id: mansearch.c,v 1.49 2014/11/11 19:04:55 schwarze Exp $ */
1.1 kristaps 2: /*
3: * Copyright (c) 2012 Kristaps Dzonsons <kristaps@bsd.lv>
1.13 schwarze 4: * Copyright (c) 2013, 2014 Ingo Schwarze <schwarze@openbsd.org>
1.1 kristaps 5: *
6: * Permission to use, copy, modify, and distribute this software for any
7: * purpose with or without fee is hereby granted, provided that the above
8: * copyright notice and this permission notice appear in all copies.
9: *
10: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
11: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
13: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17: */
18: #include "config.h"
19:
1.28 schwarze 20: #include <sys/mman.h>
1.43 schwarze 21: #include <sys/types.h>
22:
1.1 kristaps 23: #include <assert.h>
24: #include <fcntl.h>
25: #include <getopt.h>
1.6 schwarze 26: #include <limits.h>
1.8 schwarze 27: #include <regex.h>
1.1 kristaps 28: #include <stdio.h>
29: #include <stdint.h>
30: #include <stddef.h>
31: #include <stdlib.h>
32: #include <string.h>
33: #include <unistd.h>
34:
1.44 schwarze 35: #if HAVE_OHASH
1.1 kristaps 36: #include <ohash.h>
1.4 kristaps 37: #else
38: #include "compat_ohash.h"
39: #endif
1.1 kristaps 40: #include <sqlite3.h>
1.40 schwarze 41: #ifndef SQLITE_DETERMINISTIC
42: #define SQLITE_DETERMINISTIC 0
43: #endif
1.1 kristaps 44:
45: #include "mandoc.h"
1.23 schwarze 46: #include "mandoc_aux.h"
1.1 kristaps 47: #include "manpath.h"
48: #include "mansearch.h"
49:
1.20 schwarze 50: extern int mansearch_keymax;
51: extern const char *const mansearch_keynames[];
52:
1.3 kristaps 53: #define SQL_BIND_TEXT(_db, _s, _i, _v) \
1.8 schwarze 54: do { if (SQLITE_OK != sqlite3_bind_text \
1.2 kristaps 55: ((_s), (_i)++, (_v), -1, SQLITE_STATIC)) \
1.8 schwarze 56: fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \
57: } while (0)
1.3 kristaps 58: #define SQL_BIND_INT64(_db, _s, _i, _v) \
1.8 schwarze 59: do { if (SQLITE_OK != sqlite3_bind_int64 \
1.2 kristaps 60: ((_s), (_i)++, (_v))) \
1.8 schwarze 61: fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \
62: } while (0)
63: #define SQL_BIND_BLOB(_db, _s, _i, _v) \
64: do { if (SQLITE_OK != sqlite3_bind_blob \
65: ((_s), (_i)++, (&_v), sizeof(_v), SQLITE_STATIC)) \
66: fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \
67: } while (0)
1.2 kristaps 68:
1.1 kristaps 69: struct expr {
1.38 schwarze 70: regex_t regexp; /* compiled regexp, if applicable */
71: const char *substr; /* to search for, if applicable */
72: struct expr *next; /* next in sequence */
1.34 schwarze 73: uint64_t bits; /* type-mask */
1.38 schwarze 74: int equal; /* equality, not subsring match */
1.13 schwarze 75: int open; /* opening parentheses before */
76: int and; /* logical AND before */
77: int close; /* closing parentheses after */
1.1 kristaps 78: };
79:
80: struct match {
1.32 schwarze 81: uint64_t pageid; /* identifier in database */
1.50 ! schwarze 82: uint64_t bits; /* name type mask */
1.26 schwarze 83: char *desc; /* manual page description */
1.48 schwarze 84: int form; /* bit field: formatted, zipped? */
1.1 kristaps 85: };
86:
1.17 schwarze 87: static void buildnames(struct manpage *, sqlite3 *,
1.19 schwarze 88: sqlite3_stmt *, uint64_t,
89: const char *, int form);
1.12 schwarze 90: static char *buildoutput(sqlite3 *, sqlite3_stmt *,
91: uint64_t, uint64_t);
1.1 kristaps 92: static void *hash_alloc(size_t, void *);
1.37 schwarze 93: static void hash_free(void *, void *);
94: static void *hash_calloc(size_t, size_t, void *);
1.34 schwarze 95: static struct expr *exprcomp(const struct mansearch *,
1.5 kristaps 96: int, char *[]);
1.1 kristaps 97: static void exprfree(struct expr *);
1.15 schwarze 98: static struct expr *exprspec(struct expr *, uint64_t,
99: const char *, const char *);
1.8 schwarze 100: static struct expr *exprterm(const struct mansearch *, char *, int);
1.39 schwarze 101: static int manpage_compare(const void *, const void *);
1.13 schwarze 102: static void sql_append(char **sql, size_t *sz,
103: const char *newstr, int count);
1.7 schwarze 104: static void sql_match(sqlite3_context *context,
105: int argc, sqlite3_value **argv);
1.8 schwarze 106: static void sql_regexp(sqlite3_context *context,
107: int argc, sqlite3_value **argv);
1.15 schwarze 108: static char *sql_statement(const struct expr *);
1.28 schwarze 109:
1.34 schwarze 110:
1.28 schwarze 111: int
112: mansearch_setup(int start)
113: {
114: static void *pagecache;
115: int c;
116:
117: #define PC_PAGESIZE 1280
118: #define PC_NUMPAGES 256
119:
120: if (start) {
121: if (NULL != pagecache) {
122: fprintf(stderr, "pagecache already enabled\n");
123: return((int)MANDOCLEVEL_BADARG);
124: }
125:
126: pagecache = mmap(NULL, PC_PAGESIZE * PC_NUMPAGES,
1.42 schwarze 127: PROT_READ | PROT_WRITE,
128: MAP_SHARED | MAP_ANON, -1, 0);
1.28 schwarze 129:
130: if (MAP_FAILED == pagecache) {
131: perror("mmap");
132: pagecache = NULL;
133: return((int)MANDOCLEVEL_SYSERR);
134: }
135:
136: c = sqlite3_config(SQLITE_CONFIG_PAGECACHE,
137: pagecache, PC_PAGESIZE, PC_NUMPAGES);
138:
139: if (SQLITE_OK == c)
140: return((int)MANDOCLEVEL_OK);
141:
142: fprintf(stderr, "pagecache: %s\n", sqlite3_errstr(c));
143:
144: } else if (NULL == pagecache) {
145: fprintf(stderr, "pagecache missing\n");
146: return((int)MANDOCLEVEL_BADARG);
147: }
148:
149: if (-1 == munmap(pagecache, PC_PAGESIZE * PC_NUMPAGES)) {
150: perror("munmap");
151: pagecache = NULL;
152: return((int)MANDOCLEVEL_SYSERR);
153: }
154:
155: pagecache = NULL;
156: return((int)MANDOCLEVEL_OK);
157: }
1.1 kristaps 158:
159: int
1.5 kristaps 160: mansearch(const struct mansearch *search,
1.12 schwarze 161: const struct manpaths *paths,
162: int argc, char *argv[],
1.1 kristaps 163: struct manpage **res, size_t *sz)
164: {
1.20 schwarze 165: int fd, rc, c, indexbit;
1.32 schwarze 166: int64_t pageid;
1.20 schwarze 167: uint64_t outbit, iterbit;
1.6 schwarze 168: char buf[PATH_MAX];
1.11 schwarze 169: char *sql;
1.10 schwarze 170: struct manpage *mpage;
1.1 kristaps 171: struct expr *e, *ep;
172: sqlite3 *db;
1.12 schwarze 173: sqlite3_stmt *s, *s2;
1.1 kristaps 174: struct match *mp;
175: struct ohash_info info;
176: struct ohash htab;
177: unsigned int idx;
178: size_t i, j, cur, maxres;
179:
1.37 schwarze 180: info.calloc = hash_calloc;
1.1 kristaps 181: info.alloc = hash_alloc;
1.37 schwarze 182: info.free = hash_free;
1.32 schwarze 183: info.key_offset = offsetof(struct match, pageid);
1.1 kristaps 184:
1.2 kristaps 185: *sz = cur = maxres = 0;
1.1 kristaps 186: sql = NULL;
187: *res = NULL;
188: fd = -1;
189: e = NULL;
1.2 kristaps 190: rc = 0;
1.1 kristaps 191:
192: if (0 == argc)
193: goto out;
1.5 kristaps 194: if (NULL == (e = exprcomp(search, argc, argv)))
1.1 kristaps 195: goto out;
196:
1.12 schwarze 197: outbit = 0;
1.45 schwarze 198: if (NULL != search->outkey) {
1.20 schwarze 199: for (indexbit = 0, iterbit = 1;
200: indexbit < mansearch_keymax;
201: indexbit++, iterbit <<= 1) {
1.45 schwarze 202: if (0 == strcasecmp(search->outkey,
1.20 schwarze 203: mansearch_keynames[indexbit])) {
204: outbit = iterbit;
1.12 schwarze 205: break;
206: }
207: }
208: }
209:
1.1 kristaps 210: /*
211: * Save a descriptor to the current working directory.
212: * Since pathnames in the "paths" variable might be relative,
213: * and we'll be chdir()ing into them, we need to keep a handle
214: * on our current directory from which to start the chdir().
215: */
216:
1.6 schwarze 217: if (NULL == getcwd(buf, PATH_MAX)) {
1.30 schwarze 218: perror("getcwd");
1.1 kristaps 219: goto out;
220: } else if (-1 == (fd = open(buf, O_RDONLY, 0))) {
221: perror(buf);
222: goto out;
223: }
224:
1.15 schwarze 225: sql = sql_statement(e);
1.1 kristaps 226:
227: /*
228: * Loop over the directories (containing databases) for us to
229: * search.
230: * Don't let missing/bad databases/directories phase us.
231: * In each, try to open the resident database and, if it opens,
232: * scan it for our match expression.
233: */
234:
235: for (i = 0; i < paths->sz; i++) {
236: if (-1 == fchdir(fd)) {
237: perror(buf);
238: free(*res);
239: break;
240: } else if (-1 == chdir(paths->paths[i])) {
241: perror(paths->paths[i]);
242: continue;
1.34 schwarze 243: }
1.1 kristaps 244:
1.34 schwarze 245: c = sqlite3_open_v2(MANDOC_DB, &db,
246: SQLITE_OPEN_READONLY, NULL);
1.1 kristaps 247:
1.2 kristaps 248: if (SQLITE_OK != c) {
1.1 kristaps 249: perror(MANDOC_DB);
250: sqlite3_close(db);
251: continue;
252: }
253:
1.8 schwarze 254: /*
255: * Define the SQL functions for substring
256: * and regular expression matching.
257: */
1.7 schwarze 258:
259: c = sqlite3_create_function(db, "match", 2,
1.31 schwarze 260: SQLITE_UTF8 | SQLITE_DETERMINISTIC,
261: NULL, sql_match, NULL, NULL);
1.8 schwarze 262: assert(SQLITE_OK == c);
263: c = sqlite3_create_function(db, "regexp", 2,
1.31 schwarze 264: SQLITE_UTF8 | SQLITE_DETERMINISTIC,
265: NULL, sql_regexp, NULL, NULL);
1.8 schwarze 266: assert(SQLITE_OK == c);
1.7 schwarze 267:
1.1 kristaps 268: j = 1;
1.2 kristaps 269: c = sqlite3_prepare_v2(db, sql, -1, &s, NULL);
270: if (SQLITE_OK != c)
271: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
1.1 kristaps 272:
273: for (ep = e; NULL != ep; ep = ep->next) {
1.8 schwarze 274: if (NULL == ep->substr) {
275: SQL_BIND_BLOB(db, s, j, ep->regexp);
276: } else
277: SQL_BIND_TEXT(db, s, j, ep->substr);
1.27 schwarze 278: if (0 == ((TYPE_Nd | TYPE_Nm) & ep->bits))
1.26 schwarze 279: SQL_BIND_INT64(db, s, j, ep->bits);
1.1 kristaps 280: }
281:
282: memset(&htab, 0, sizeof(struct ohash));
283: ohash_init(&htab, 4, &info);
284:
285: /*
286: * Hash each entry on its [unique] document identifier.
287: * This is a uint64_t.
288: * Instead of using a hash function, simply convert the
289: * uint64_t to a uint32_t, the hash value's type.
290: * This gives good performance and preserves the
291: * distribution of buckets in the table.
292: */
1.2 kristaps 293: while (SQLITE_ROW == (c = sqlite3_step(s))) {
1.32 schwarze 294: pageid = sqlite3_column_int64(s, 2);
1.34 schwarze 295: idx = ohash_lookup_memory(&htab,
296: (char *)&pageid, sizeof(uint64_t),
297: (uint32_t)pageid);
1.1 kristaps 298:
299: if (NULL != ohash_find(&htab, idx))
300: continue;
301:
302: mp = mandoc_calloc(1, sizeof(struct match));
1.32 schwarze 303: mp->pageid = pageid;
1.26 schwarze 304: mp->form = sqlite3_column_int(s, 1);
1.50 ! schwarze 305: mp->bits = sqlite3_column_int64(s, 3);
1.26 schwarze 306: if (TYPE_Nd == outbit)
1.41 schwarze 307: mp->desc = mandoc_strdup((const char *)
1.26 schwarze 308: sqlite3_column_text(s, 0));
1.1 kristaps 309: ohash_insert(&htab, idx, mp);
310: }
311:
1.2 kristaps 312: if (SQLITE_DONE != c)
313: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
314:
1.1 kristaps 315: sqlite3_finalize(s);
1.10 schwarze 316:
1.34 schwarze 317: c = sqlite3_prepare_v2(db,
1.35 schwarze 318: "SELECT sec, arch, name, pageid FROM mlinks "
319: "WHERE pageid=? ORDER BY sec, arch, name",
1.10 schwarze 320: -1, &s, NULL);
321: if (SQLITE_OK != c)
322: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
1.1 kristaps 323:
1.12 schwarze 324: c = sqlite3_prepare_v2(db,
1.35 schwarze 325: "SELECT bits, key, pageid FROM keys "
326: "WHERE pageid=? AND bits & ?",
1.12 schwarze 327: -1, &s2, NULL);
328: if (SQLITE_OK != c)
329: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
330:
1.1 kristaps 331: for (mp = ohash_first(&htab, &idx);
332: NULL != mp;
333: mp = ohash_next(&htab, &idx)) {
334: if (cur + 1 > maxres) {
335: maxres += 1024;
1.36 schwarze 336: *res = mandoc_reallocarray(*res,
337: maxres, sizeof(struct manpage));
1.1 kristaps 338: }
1.10 schwarze 339: mpage = *res + cur;
1.47 schwarze 340: mpage->ipath = i;
1.50 ! schwarze 341: mpage->bits = mp->bits;
1.39 schwarze 342: mpage->sec = 10;
1.10 schwarze 343: mpage->form = mp->form;
1.32 schwarze 344: buildnames(mpage, db, s, mp->pageid,
1.19 schwarze 345: paths->paths[i], mp->form);
1.26 schwarze 346: mpage->output = TYPE_Nd & outbit ?
347: mp->desc : outbit ?
1.32 schwarze 348: buildoutput(db, s2, mp->pageid, outbit) : NULL;
1.10 schwarze 349:
1.1 kristaps 350: free(mp);
351: cur++;
352: }
1.10 schwarze 353:
354: sqlite3_finalize(s);
1.12 schwarze 355: sqlite3_finalize(s2);
1.10 schwarze 356: sqlite3_close(db);
1.1 kristaps 357: ohash_delete(&htab);
1.49 schwarze 358:
359: /*
360: * In man(1) mode, prefer matches in earlier trees
361: * over matches in later trees.
362: */
363:
364: if (cur && search->firstmatch)
365: break;
1.1 kristaps 366: }
1.39 schwarze 367: qsort(*res, cur, sizeof(struct manpage), manpage_compare);
1.2 kristaps 368: rc = 1;
1.1 kristaps 369: out:
1.30 schwarze 370: if (-1 != fd) {
371: if (-1 == fchdir(fd))
372: perror(buf);
373: close(fd);
374: }
1.1 kristaps 375: exprfree(e);
376: free(sql);
377: *sz = cur;
1.2 kristaps 378: return(rc);
1.11 schwarze 379: }
380:
1.45 schwarze 381: void
382: mansearch_free(struct manpage *res, size_t sz)
383: {
384: size_t i;
385:
386: for (i = 0; i < sz; i++) {
387: free(res[i].file);
388: free(res[i].names);
389: free(res[i].output);
390: }
391: free(res);
392: }
393:
1.39 schwarze 394: static int
395: manpage_compare(const void *vp1, const void *vp2)
396: {
397: const struct manpage *mp1, *mp2;
398: int diff;
399:
400: mp1 = vp1;
401: mp2 = vp2;
1.50 ! schwarze 402: return( (diff = mp2->bits - mp1->bits) ? diff :
! 403: (diff = mp1->sec - mp2->sec) ? diff :
! 404: strcasecmp(mp1->names, mp2->names));
1.39 schwarze 405: }
406:
1.17 schwarze 407: static void
408: buildnames(struct manpage *mpage, sqlite3 *db, sqlite3_stmt *s,
1.32 schwarze 409: uint64_t pageid, const char *path, int form)
1.11 schwarze 410: {
1.22 schwarze 411: char *newnames, *prevsec, *prevarch;
1.19 schwarze 412: const char *oldnames, *sep1, *name, *sec, *sep2, *arch, *fsec;
1.48 schwarze 413: const char *gzip;
1.11 schwarze 414: size_t i;
415: int c;
416:
1.25 schwarze 417: mpage->file = NULL;
1.17 schwarze 418: mpage->names = NULL;
1.22 schwarze 419: prevsec = prevarch = NULL;
1.11 schwarze 420: i = 1;
1.32 schwarze 421: SQL_BIND_INT64(db, s, i, pageid);
1.11 schwarze 422: while (SQLITE_ROW == (c = sqlite3_step(s))) {
1.17 schwarze 423:
1.22 schwarze 424: /* Decide whether we already have some names. */
1.17 schwarze 425:
426: if (NULL == mpage->names) {
1.11 schwarze 427: oldnames = "";
428: sep1 = "";
429: } else {
1.17 schwarze 430: oldnames = mpage->names;
1.11 schwarze 431: sep1 = ", ";
432: }
1.22 schwarze 433:
434: /* Fetch the next name. */
435:
1.41 schwarze 436: sec = (const char *)sqlite3_column_text(s, 0);
437: arch = (const char *)sqlite3_column_text(s, 1);
438: name = (const char *)sqlite3_column_text(s, 2);
1.39 schwarze 439:
440: /* Remember the first section found. */
441:
442: if (9 < mpage->sec && '1' <= *sec && '9' >= *sec)
443: mpage->sec = (*sec - '1') + 1;
1.22 schwarze 444:
445: /* If the section changed, append the old one. */
446:
447: if (NULL != prevsec &&
448: (strcmp(sec, prevsec) ||
449: strcmp(arch, prevarch))) {
450: sep2 = '\0' == *prevarch ? "" : "/";
1.24 schwarze 451: mandoc_asprintf(&newnames, "%s(%s%s%s)",
452: oldnames, prevsec, sep2, prevarch);
1.22 schwarze 453: free(mpage->names);
454: oldnames = mpage->names = newnames;
455: free(prevsec);
456: free(prevarch);
457: prevsec = prevarch = NULL;
458: }
459:
460: /* Save the new section, to append it later. */
461:
462: if (NULL == prevsec) {
463: prevsec = mandoc_strdup(sec);
464: prevarch = mandoc_strdup(arch);
465: }
466:
467: /* Append the new name. */
468:
1.24 schwarze 469: mandoc_asprintf(&newnames, "%s%s%s",
470: oldnames, sep1, name);
1.17 schwarze 471: free(mpage->names);
472: mpage->names = newnames;
473:
474: /* Also save the first file name encountered. */
475:
476: if (NULL != mpage->file)
477: continue;
478:
1.48 schwarze 479: if (form & FORM_SRC) {
1.19 schwarze 480: sep1 = "man";
481: fsec = sec;
482: } else {
483: sep1 = "cat";
484: fsec = "0";
485: }
1.48 schwarze 486: if (form & FORM_GZ)
487: gzip = ".gz";
488: else
489: gzip = "";
1.22 schwarze 490: sep2 = '\0' == *arch ? "" : "/";
1.48 schwarze 491: mandoc_asprintf(&mpage->file, "%s/%s%s%s%s/%s.%s%s",
492: path, sep1, sec, sep2, arch, name, fsec, gzip);
1.11 schwarze 493: }
494: if (SQLITE_DONE != c)
495: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
496: sqlite3_reset(s);
1.22 schwarze 497:
498: /* Append one final section to the names. */
499:
500: if (NULL != prevsec) {
501: sep2 = '\0' == *prevarch ? "" : "/";
1.24 schwarze 502: mandoc_asprintf(&newnames, "%s(%s%s%s)",
503: mpage->names, prevsec, sep2, prevarch);
1.22 schwarze 504: free(mpage->names);
505: mpage->names = newnames;
506: free(prevsec);
507: free(prevarch);
508: }
1.12 schwarze 509: }
510:
511: static char *
1.32 schwarze 512: buildoutput(sqlite3 *db, sqlite3_stmt *s, uint64_t pageid, uint64_t outbit)
1.12 schwarze 513: {
514: char *output, *newoutput;
515: const char *oldoutput, *sep1, *data;
516: size_t i;
517: int c;
518:
519: output = NULL;
520: i = 1;
1.32 schwarze 521: SQL_BIND_INT64(db, s, i, pageid);
1.12 schwarze 522: SQL_BIND_INT64(db, s, i, outbit);
523: while (SQLITE_ROW == (c = sqlite3_step(s))) {
524: if (NULL == output) {
525: oldoutput = "";
526: sep1 = "";
527: } else {
528: oldoutput = output;
529: sep1 = " # ";
530: }
1.41 schwarze 531: data = (const char *)sqlite3_column_text(s, 1);
1.24 schwarze 532: mandoc_asprintf(&newoutput, "%s%s%s",
533: oldoutput, sep1, data);
1.12 schwarze 534: free(output);
535: output = newoutput;
536: }
537: if (SQLITE_DONE != c)
538: fprintf(stderr, "%s\n", sqlite3_errmsg(db));
539: sqlite3_reset(s);
540: return(output);
1.1 kristaps 541: }
542:
543: /*
1.7 schwarze 544: * Implement substring match as an application-defined SQL function.
545: * Using the SQL LIKE or GLOB operators instead would be a bad idea
546: * because that would require escaping metacharacters in the string
547: * being searched for.
548: */
549: static void
550: sql_match(sqlite3_context *context, int argc, sqlite3_value **argv)
551: {
552:
553: assert(2 == argc);
554: sqlite3_result_int(context, NULL != strcasestr(
555: (const char *)sqlite3_value_text(argv[1]),
556: (const char *)sqlite3_value_text(argv[0])));
557: }
558:
559: /*
1.8 schwarze 560: * Implement regular expression match
561: * as an application-defined SQL function.
562: */
563: static void
564: sql_regexp(sqlite3_context *context, int argc, sqlite3_value **argv)
565: {
566:
567: assert(2 == argc);
568: sqlite3_result_int(context, !regexec(
569: (regex_t *)sqlite3_value_blob(argv[0]),
570: (const char *)sqlite3_value_text(argv[1]),
571: 0, NULL, 0));
572: }
573:
1.13 schwarze 574: static void
575: sql_append(char **sql, size_t *sz, const char *newstr, int count)
576: {
577: size_t newsz;
578:
579: newsz = 1 < count ? (size_t)count : strlen(newstr);
580: *sql = mandoc_realloc(*sql, *sz + newsz + 1);
581: if (1 < count)
582: memset(*sql + *sz, *newstr, (size_t)count);
583: else
584: memcpy(*sql + *sz, newstr, newsz);
585: *sz += newsz;
586: (*sql)[*sz] = '\0';
587: }
588:
1.8 schwarze 589: /*
1.1 kristaps 590: * Prepare the search SQL statement.
591: */
592: static char *
1.15 schwarze 593: sql_statement(const struct expr *e)
1.1 kristaps 594: {
595: char *sql;
596: size_t sz;
1.13 schwarze 597: int needop;
1.1 kristaps 598:
1.50 ! schwarze 599: sql = mandoc_strdup(e->equal ?
! 600: "SELECT desc, form, pageid, bits "
! 601: "FROM mpages NATURAL JOIN names WHERE " :
! 602: "SELECT desc, form, pageid, 0 FROM mpages WHERE ");
1.1 kristaps 603: sz = strlen(sql);
1.2 kristaps 604:
1.13 schwarze 605: for (needop = 0; NULL != e; e = e->next) {
606: if (e->and)
607: sql_append(&sql, &sz, " AND ", 1);
608: else if (needop)
609: sql_append(&sql, &sz, " OR ", 1);
610: if (e->open)
611: sql_append(&sql, &sz, "(", e->open);
1.26 schwarze 612: sql_append(&sql, &sz,
613: TYPE_Nd & e->bits
614: ? (NULL == e->substr
615: ? "desc REGEXP ?"
616: : "desc MATCH ?")
1.27 schwarze 617: : TYPE_Nm == e->bits
618: ? (NULL == e->substr
1.32 schwarze 619: ? "pageid IN (SELECT pageid FROM names "
1.27 schwarze 620: "WHERE name REGEXP ?)"
1.38 schwarze 621: : e->equal
1.50 ! schwarze 622: ? "name = ? "
1.32 schwarze 623: : "pageid IN (SELECT pageid FROM names "
1.27 schwarze 624: "WHERE name MATCH ?)")
1.26 schwarze 625: : (NULL == e->substr
1.32 schwarze 626: ? "pageid IN (SELECT pageid FROM keys "
1.26 schwarze 627: "WHERE key REGEXP ? AND bits & ?)"
1.32 schwarze 628: : "pageid IN (SELECT pageid FROM keys "
1.26 schwarze 629: "WHERE key MATCH ? AND bits & ?)"), 1);
1.13 schwarze 630: if (e->close)
631: sql_append(&sql, &sz, ")", e->close);
632: needop = 1;
1.1 kristaps 633: }
634:
635: return(sql);
636: }
637:
638: /*
639: * Compile a set of string tokens into an expression.
640: * Tokens in "argv" are assumed to be individual expression atoms (e.g.,
641: * "(", "foo=bar", etc.).
642: */
643: static struct expr *
1.5 kristaps 644: exprcomp(const struct mansearch *search, int argc, char *argv[])
1.1 kristaps 645: {
1.27 schwarze 646: uint64_t mask;
1.13 schwarze 647: int i, toopen, logic, igncase, toclose;
1.27 schwarze 648: struct expr *first, *prev, *cur, *next;
1.1 kristaps 649:
650: first = cur = NULL;
1.15 schwarze 651: logic = igncase = toclose = 0;
1.33 schwarze 652: toopen = NULL != search->sec || NULL != search->arch;
1.1 kristaps 653:
654: for (i = 0; i < argc; i++) {
1.13 schwarze 655: if (0 == strcmp("(", argv[i])) {
656: if (igncase)
657: goto fail;
658: toopen++;
659: toclose++;
660: continue;
661: } else if (0 == strcmp(")", argv[i])) {
662: if (toopen || logic || igncase || NULL == cur)
663: goto fail;
664: cur->close++;
665: if (0 > --toclose)
666: goto fail;
667: continue;
668: } else if (0 == strcmp("-a", argv[i])) {
669: if (toopen || logic || igncase || NULL == cur)
670: goto fail;
671: logic = 1;
672: continue;
673: } else if (0 == strcmp("-o", argv[i])) {
674: if (toopen || logic || igncase || NULL == cur)
675: goto fail;
676: logic = 2;
677: continue;
678: } else if (0 == strcmp("-i", argv[i])) {
679: if (igncase)
680: goto fail;
681: igncase = 1;
682: continue;
1.1 kristaps 683: }
1.13 schwarze 684: next = exprterm(search, argv[i], !igncase);
685: if (NULL == next)
686: goto fail;
1.26 schwarze 687: if (NULL == first)
688: first = next;
689: else
1.1 kristaps 690: cur->next = next;
1.27 schwarze 691: prev = cur = next;
1.26 schwarze 692:
693: /*
694: * Searching for descriptions must be split out
695: * because they are stored in the mpages table,
696: * not in the keys table.
697: */
698:
1.27 schwarze 699: for (mask = TYPE_Nm; mask <= TYPE_Nd; mask <<= 1) {
700: if (mask & cur->bits && ~mask & cur->bits) {
701: next = mandoc_calloc(1,
702: sizeof(struct expr));
703: memcpy(next, cur, sizeof(struct expr));
704: prev->open = 1;
705: cur->bits = mask;
706: cur->next = next;
707: cur = next;
708: cur->bits &= ~mask;
709: }
710: }
711: prev->and = (1 == logic);
712: prev->open += toopen;
713: if (cur != prev)
1.26 schwarze 714: cur->close = 1;
1.27 schwarze 715:
1.13 schwarze 716: toopen = logic = igncase = 0;
1.1 kristaps 717: }
1.15 schwarze 718: if (toopen || logic || igncase || toclose)
719: goto fail;
720:
1.33 schwarze 721: if (NULL != search->sec || NULL != search->arch)
722: cur->close++;
723: if (NULL != search->arch)
724: cur = exprspec(cur, TYPE_arch, search->arch, "^(%s|any)$");
725: if (NULL != search->sec)
726: exprspec(cur, TYPE_sec, search->sec, "^%s$");
1.15 schwarze 727:
728: return(first);
729:
1.13 schwarze 730: fail:
731: if (NULL != first)
732: exprfree(first);
733: return(NULL);
1.1 kristaps 734: }
735:
736: static struct expr *
1.15 schwarze 737: exprspec(struct expr *cur, uint64_t key, const char *value,
738: const char *format)
739: {
740: char errbuf[BUFSIZ];
741: char *cp;
742: int irc;
743:
1.24 schwarze 744: mandoc_asprintf(&cp, format, value);
1.15 schwarze 745: cur->next = mandoc_calloc(1, sizeof(struct expr));
746: cur = cur->next;
747: cur->and = 1;
748: cur->bits = key;
749: if (0 != (irc = regcomp(&cur->regexp, cp,
750: REG_EXTENDED | REG_NOSUB | REG_ICASE))) {
751: regerror(irc, &cur->regexp, errbuf, sizeof(errbuf));
752: fprintf(stderr, "regcomp: %s\n", errbuf);
753: cur->substr = value;
754: }
755: free(cp);
756: return(cur);
757: }
758:
759: static struct expr *
1.8 schwarze 760: exprterm(const struct mansearch *search, char *buf, int cs)
1.1 kristaps 761: {
1.15 schwarze 762: char errbuf[BUFSIZ];
1.1 kristaps 763: struct expr *e;
1.38 schwarze 764: char *key, *val;
1.20 schwarze 765: uint64_t iterbit;
766: int i, irc;
1.1 kristaps 767:
768: if ('\0' == *buf)
769: return(NULL);
770:
771: e = mandoc_calloc(1, sizeof(struct expr));
772:
1.45 schwarze 773: if (search->argmode == ARG_NAME) {
774: e->bits = TYPE_Nm;
1.8 schwarze 775: e->substr = buf;
1.38 schwarze 776: e->equal = 1;
1.5 kristaps 777: return(e);
778: }
779:
1.1 kristaps 780: /*
1.45 schwarze 781: * Separate macro keys from search string.
782: * If needed, request regular expression handling
783: * by setting e->substr to NULL.
1.1 kristaps 784: */
785:
1.45 schwarze 786: if (search->argmode == ARG_WORD) {
787: e->bits = TYPE_Nm;
788: e->substr = NULL;
789: mandoc_asprintf(&val, "[[:<:]]%s[[:>:]]", buf);
1.46 schwarze 790: cs = 0;
1.45 schwarze 791: } else if ((val = strpbrk(buf, "=~")) == NULL) {
792: e->bits = TYPE_Nm | TYPE_Nd;
1.8 schwarze 793: e->substr = buf;
1.38 schwarze 794: } else {
795: if (val == buf)
1.45 schwarze 796: e->bits = TYPE_Nm | TYPE_Nd;
1.38 schwarze 797: if ('=' == *val)
798: e->substr = val + 1;
799: *val++ = '\0';
1.21 schwarze 800: if (NULL != strstr(buf, "arch"))
801: cs = 0;
1.38 schwarze 802: }
803:
804: /* Compile regular expressions. */
805:
806: if (NULL == e->substr) {
807: irc = regcomp(&e->regexp, val,
808: REG_EXTENDED | REG_NOSUB | (cs ? 0 : REG_ICASE));
1.45 schwarze 809: if (search->argmode == ARG_WORD)
1.38 schwarze 810: free(val);
811: if (irc) {
1.15 schwarze 812: regerror(irc, &e->regexp, errbuf, sizeof(errbuf));
813: fprintf(stderr, "regcomp: %s\n", errbuf);
1.8 schwarze 814: free(e);
815: return(NULL);
816: }
1.38 schwarze 817: }
818:
819: if (e->bits)
820: return(e);
1.1 kristaps 821:
822: /*
823: * Parse out all possible fields.
824: * If the field doesn't resolve, bail.
825: */
826:
827: while (NULL != (key = strsep(&buf, ","))) {
828: if ('\0' == *key)
829: continue;
1.20 schwarze 830: for (i = 0, iterbit = 1;
831: i < mansearch_keymax;
832: i++, iterbit <<= 1) {
833: if (0 == strcasecmp(key,
834: mansearch_keynames[i])) {
835: e->bits |= iterbit;
836: break;
837: }
838: }
839: if (i == mansearch_keymax) {
840: if (strcasecmp(key, "any")) {
841: free(e);
842: return(NULL);
843: }
844: e->bits |= ~0ULL;
1.1 kristaps 845: }
846: }
847:
848: return(e);
849: }
850:
851: static void
852: exprfree(struct expr *p)
853: {
854: struct expr *pp;
855:
856: while (NULL != p) {
857: pp = p->next;
858: free(p);
859: p = pp;
860: }
861: }
862:
863: static void *
1.37 schwarze 864: hash_calloc(size_t nmemb, size_t sz, void *arg)
1.1 kristaps 865: {
866:
1.37 schwarze 867: return(mandoc_calloc(nmemb, sz));
1.1 kristaps 868: }
869:
870: static void *
871: hash_alloc(size_t sz, void *arg)
872: {
873:
874: return(mandoc_malloc(sz));
875: }
876:
877: static void
1.37 schwarze 878: hash_free(void *p, void *arg)
1.1 kristaps 879: {
880:
881: free(p);
882: }
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