/* $Id$ */ /* * Copyright (c) 2012 Kristaps Dzonsons * Copyright (c) 2013, 2014 Ingo Schwarze * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_OHASH #include #else #include "compat_ohash.h" #endif #include #ifndef SQLITE_DETERMINISTIC #define SQLITE_DETERMINISTIC 0 #endif #include "mandoc.h" #include "mandoc_aux.h" #include "manpath.h" #include "mansearch.h" extern int mansearch_keymax; extern const char *const mansearch_keynames[]; #define SQL_BIND_TEXT(_db, _s, _i, _v) \ do { if (SQLITE_OK != sqlite3_bind_text \ ((_s), (_i)++, (_v), -1, SQLITE_STATIC)) \ fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \ } while (0) #define SQL_BIND_INT64(_db, _s, _i, _v) \ do { if (SQLITE_OK != sqlite3_bind_int64 \ ((_s), (_i)++, (_v))) \ fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \ } while (0) #define SQL_BIND_BLOB(_db, _s, _i, _v) \ do { if (SQLITE_OK != sqlite3_bind_blob \ ((_s), (_i)++, (&_v), sizeof(_v), SQLITE_STATIC)) \ fprintf(stderr, "%s\n", sqlite3_errmsg((_db))); \ } while (0) struct expr { regex_t regexp; /* compiled regexp, if applicable */ const char *substr; /* to search for, if applicable */ struct expr *next; /* next in sequence */ uint64_t bits; /* type-mask */ int equal; /* equality, not subsring match */ int open; /* opening parentheses before */ int and; /* logical AND before */ int close; /* closing parentheses after */ }; struct match { uint64_t pageid; /* identifier in database */ char *desc; /* manual page description */ int form; /* 0 == catpage */ }; static void buildnames(struct manpage *, sqlite3 *, sqlite3_stmt *, uint64_t, const char *, int form); static char *buildoutput(sqlite3 *, sqlite3_stmt *, uint64_t, uint64_t); static void *hash_alloc(size_t, void *); static void hash_free(void *, void *); static void *hash_calloc(size_t, size_t, void *); static struct expr *exprcomp(const struct mansearch *, int, char *[]); static void exprfree(struct expr *); static struct expr *exprspec(struct expr *, uint64_t, const char *, const char *); static struct expr *exprterm(const struct mansearch *, char *, int); static int manpage_compare(const void *, const void *); static void sql_append(char **sql, size_t *sz, const char *newstr, int count); static void sql_match(sqlite3_context *context, int argc, sqlite3_value **argv); static void sql_regexp(sqlite3_context *context, int argc, sqlite3_value **argv); static char *sql_statement(const struct expr *); int mansearch_setup(int start) { static void *pagecache; int c; #define PC_PAGESIZE 1280 #define PC_NUMPAGES 256 if (start) { if (NULL != pagecache) { fprintf(stderr, "pagecache already enabled\n"); return((int)MANDOCLEVEL_BADARG); } pagecache = mmap(NULL, PC_PAGESIZE * PC_NUMPAGES, PROT_READ | PROT_WRITE, MAP_ANON, -1, 0); if (MAP_FAILED == pagecache) { perror("mmap"); pagecache = NULL; return((int)MANDOCLEVEL_SYSERR); } c = sqlite3_config(SQLITE_CONFIG_PAGECACHE, pagecache, PC_PAGESIZE, PC_NUMPAGES); if (SQLITE_OK == c) return((int)MANDOCLEVEL_OK); fprintf(stderr, "pagecache: %s\n", sqlite3_errstr(c)); } else if (NULL == pagecache) { fprintf(stderr, "pagecache missing\n"); return((int)MANDOCLEVEL_BADARG); } if (-1 == munmap(pagecache, PC_PAGESIZE * PC_NUMPAGES)) { perror("munmap"); pagecache = NULL; return((int)MANDOCLEVEL_SYSERR); } pagecache = NULL; return((int)MANDOCLEVEL_OK); } int mansearch(const struct mansearch *search, const struct manpaths *paths, int argc, char *argv[], const char *outkey, struct manpage **res, size_t *sz) { int fd, rc, c, indexbit; int64_t pageid; uint64_t outbit, iterbit; char buf[PATH_MAX]; char *sql; struct manpage *mpage; struct expr *e, *ep; sqlite3 *db; sqlite3_stmt *s, *s2; struct match *mp; struct ohash_info info; struct ohash htab; unsigned int idx; size_t i, j, cur, maxres; info.calloc = hash_calloc; info.alloc = hash_alloc; info.free = hash_free; info.key_offset = offsetof(struct match, pageid); *sz = cur = maxres = 0; sql = NULL; *res = NULL; fd = -1; e = NULL; rc = 0; if (0 == argc) goto out; if (NULL == (e = exprcomp(search, argc, argv))) goto out; outbit = 0; if (NULL != outkey) { for (indexbit = 0, iterbit = 1; indexbit < mansearch_keymax; indexbit++, iterbit <<= 1) { if (0 == strcasecmp(outkey, mansearch_keynames[indexbit])) { outbit = iterbit; break; } } } /* * Save a descriptor to the current working directory. * Since pathnames in the "paths" variable might be relative, * and we'll be chdir()ing into them, we need to keep a handle * on our current directory from which to start the chdir(). */ if (NULL == getcwd(buf, PATH_MAX)) { perror("getcwd"); goto out; } else if (-1 == (fd = open(buf, O_RDONLY, 0))) { perror(buf); goto out; } sql = sql_statement(e); /* * Loop over the directories (containing databases) for us to * search. * Don't let missing/bad databases/directories phase us. * In each, try to open the resident database and, if it opens, * scan it for our match expression. */ for (i = 0; i < paths->sz; i++) { if (-1 == fchdir(fd)) { perror(buf); free(*res); break; } else if (-1 == chdir(paths->paths[i])) { perror(paths->paths[i]); continue; } c = sqlite3_open_v2(MANDOC_DB, &db, SQLITE_OPEN_READONLY, NULL); if (SQLITE_OK != c) { perror(MANDOC_DB); sqlite3_close(db); continue; } /* * Define the SQL functions for substring * and regular expression matching. */ c = sqlite3_create_function(db, "match", 2, SQLITE_UTF8 | SQLITE_DETERMINISTIC, NULL, sql_match, NULL, NULL); assert(SQLITE_OK == c); c = sqlite3_create_function(db, "regexp", 2, SQLITE_UTF8 | SQLITE_DETERMINISTIC, NULL, sql_regexp, NULL, NULL); assert(SQLITE_OK == c); j = 1; c = sqlite3_prepare_v2(db, sql, -1, &s, NULL); if (SQLITE_OK != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); for (ep = e; NULL != ep; ep = ep->next) { if (NULL == ep->substr) { SQL_BIND_BLOB(db, s, j, ep->regexp); } else SQL_BIND_TEXT(db, s, j, ep->substr); if (0 == ((TYPE_Nd | TYPE_Nm) & ep->bits)) SQL_BIND_INT64(db, s, j, ep->bits); } memset(&htab, 0, sizeof(struct ohash)); ohash_init(&htab, 4, &info); /* * Hash each entry on its [unique] document identifier. * This is a uint64_t. * Instead of using a hash function, simply convert the * uint64_t to a uint32_t, the hash value's type. * This gives good performance and preserves the * distribution of buckets in the table. */ while (SQLITE_ROW == (c = sqlite3_step(s))) { pageid = sqlite3_column_int64(s, 2); idx = ohash_lookup_memory(&htab, (char *)&pageid, sizeof(uint64_t), (uint32_t)pageid); if (NULL != ohash_find(&htab, idx)) continue; mp = mandoc_calloc(1, sizeof(struct match)); mp->pageid = pageid; mp->form = sqlite3_column_int(s, 1); if (TYPE_Nd == outbit) mp->desc = mandoc_strdup((const char *) sqlite3_column_text(s, 0)); ohash_insert(&htab, idx, mp); } if (SQLITE_DONE != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); sqlite3_finalize(s); c = sqlite3_prepare_v2(db, "SELECT sec, arch, name, pageid FROM mlinks " "WHERE pageid=? ORDER BY sec, arch, name", -1, &s, NULL); if (SQLITE_OK != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); c = sqlite3_prepare_v2(db, "SELECT bits, key, pageid FROM keys " "WHERE pageid=? AND bits & ?", -1, &s2, NULL); if (SQLITE_OK != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); for (mp = ohash_first(&htab, &idx); NULL != mp; mp = ohash_next(&htab, &idx)) { if (cur + 1 > maxres) { maxres += 1024; *res = mandoc_reallocarray(*res, maxres, sizeof(struct manpage)); } mpage = *res + cur; mpage->sec = 10; mpage->form = mp->form; buildnames(mpage, db, s, mp->pageid, paths->paths[i], mp->form); mpage->output = TYPE_Nd & outbit ? mp->desc : outbit ? buildoutput(db, s2, mp->pageid, outbit) : NULL; free(mp); cur++; } sqlite3_finalize(s); sqlite3_finalize(s2); sqlite3_close(db); ohash_delete(&htab); } qsort(*res, cur, sizeof(struct manpage), manpage_compare); rc = 1; out: if (-1 != fd) { if (-1 == fchdir(fd)) perror(buf); close(fd); } exprfree(e); free(sql); *sz = cur; return(rc); } static int manpage_compare(const void *vp1, const void *vp2) { const struct manpage *mp1, *mp2; int diff; mp1 = vp1; mp2 = vp2; diff = mp1->sec - mp2->sec; return(diff ? diff : strcasecmp(mp1->names, mp2->names)); } static void buildnames(struct manpage *mpage, sqlite3 *db, sqlite3_stmt *s, uint64_t pageid, const char *path, int form) { char *newnames, *prevsec, *prevarch; const char *oldnames, *sep1, *name, *sec, *sep2, *arch, *fsec; size_t i; int c; mpage->file = NULL; mpage->names = NULL; prevsec = prevarch = NULL; i = 1; SQL_BIND_INT64(db, s, i, pageid); while (SQLITE_ROW == (c = sqlite3_step(s))) { /* Decide whether we already have some names. */ if (NULL == mpage->names) { oldnames = ""; sep1 = ""; } else { oldnames = mpage->names; sep1 = ", "; } /* Fetch the next name. */ sec = (const char *)sqlite3_column_text(s, 0); arch = (const char *)sqlite3_column_text(s, 1); name = (const char *)sqlite3_column_text(s, 2); /* Remember the first section found. */ if (9 < mpage->sec && '1' <= *sec && '9' >= *sec) mpage->sec = (*sec - '1') + 1; /* If the section changed, append the old one. */ if (NULL != prevsec && (strcmp(sec, prevsec) || strcmp(arch, prevarch))) { sep2 = '\0' == *prevarch ? "" : "/"; mandoc_asprintf(&newnames, "%s(%s%s%s)", oldnames, prevsec, sep2, prevarch); free(mpage->names); oldnames = mpage->names = newnames; free(prevsec); free(prevarch); prevsec = prevarch = NULL; } /* Save the new section, to append it later. */ if (NULL == prevsec) { prevsec = mandoc_strdup(sec); prevarch = mandoc_strdup(arch); } /* Append the new name. */ mandoc_asprintf(&newnames, "%s%s%s", oldnames, sep1, name); free(mpage->names); mpage->names = newnames; /* Also save the first file name encountered. */ if (NULL != mpage->file) continue; if (form) { sep1 = "man"; fsec = sec; } else { sep1 = "cat"; fsec = "0"; } sep2 = '\0' == *arch ? "" : "/"; mandoc_asprintf(&mpage->file, "%s/%s%s%s%s/%s.%s", path, sep1, sec, sep2, arch, name, fsec); } if (SQLITE_DONE != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); sqlite3_reset(s); /* Append one final section to the names. */ if (NULL != prevsec) { sep2 = '\0' == *prevarch ? "" : "/"; mandoc_asprintf(&newnames, "%s(%s%s%s)", mpage->names, prevsec, sep2, prevarch); free(mpage->names); mpage->names = newnames; free(prevsec); free(prevarch); } } static char * buildoutput(sqlite3 *db, sqlite3_stmt *s, uint64_t pageid, uint64_t outbit) { char *output, *newoutput; const char *oldoutput, *sep1, *data; size_t i; int c; output = NULL; i = 1; SQL_BIND_INT64(db, s, i, pageid); SQL_BIND_INT64(db, s, i, outbit); while (SQLITE_ROW == (c = sqlite3_step(s))) { if (NULL == output) { oldoutput = ""; sep1 = ""; } else { oldoutput = output; sep1 = " # "; } data = (const char *)sqlite3_column_text(s, 1); mandoc_asprintf(&newoutput, "%s%s%s", oldoutput, sep1, data); free(output); output = newoutput; } if (SQLITE_DONE != c) fprintf(stderr, "%s\n", sqlite3_errmsg(db)); sqlite3_reset(s); return(output); } /* * Implement substring match as an application-defined SQL function. * Using the SQL LIKE or GLOB operators instead would be a bad idea * because that would require escaping metacharacters in the string * being searched for. */ static void sql_match(sqlite3_context *context, int argc, sqlite3_value **argv) { assert(2 == argc); sqlite3_result_int(context, NULL != strcasestr( (const char *)sqlite3_value_text(argv[1]), (const char *)sqlite3_value_text(argv[0]))); } /* * Implement regular expression match * as an application-defined SQL function. */ static void sql_regexp(sqlite3_context *context, int argc, sqlite3_value **argv) { assert(2 == argc); sqlite3_result_int(context, !regexec( (regex_t *)sqlite3_value_blob(argv[0]), (const char *)sqlite3_value_text(argv[1]), 0, NULL, 0)); } static void sql_append(char **sql, size_t *sz, const char *newstr, int count) { size_t newsz; newsz = 1 < count ? (size_t)count : strlen(newstr); *sql = mandoc_realloc(*sql, *sz + newsz + 1); if (1 < count) memset(*sql + *sz, *newstr, (size_t)count); else memcpy(*sql + *sz, newstr, newsz); *sz += newsz; (*sql)[*sz] = '\0'; } /* * Prepare the search SQL statement. */ static char * sql_statement(const struct expr *e) { char *sql; size_t sz; int needop; sql = mandoc_strdup( "SELECT desc, form, pageid FROM mpages WHERE "); sz = strlen(sql); for (needop = 0; NULL != e; e = e->next) { if (e->and) sql_append(&sql, &sz, " AND ", 1); else if (needop) sql_append(&sql, &sz, " OR ", 1); if (e->open) sql_append(&sql, &sz, "(", e->open); sql_append(&sql, &sz, TYPE_Nd & e->bits ? (NULL == e->substr ? "desc REGEXP ?" : "desc MATCH ?") : TYPE_Nm == e->bits ? (NULL == e->substr ? "pageid IN (SELECT pageid FROM names " "WHERE name REGEXP ?)" : e->equal ? "pageid IN (SELECT pageid FROM names " "WHERE name = ?)" : "pageid IN (SELECT pageid FROM names " "WHERE name MATCH ?)") : (NULL == e->substr ? "pageid IN (SELECT pageid FROM keys " "WHERE key REGEXP ? AND bits & ?)" : "pageid IN (SELECT pageid FROM keys " "WHERE key MATCH ? AND bits & ?)"), 1); if (e->close) sql_append(&sql, &sz, ")", e->close); needop = 1; } return(sql); } /* * Compile a set of string tokens into an expression. * Tokens in "argv" are assumed to be individual expression atoms (e.g., * "(", "foo=bar", etc.). */ static struct expr * exprcomp(const struct mansearch *search, int argc, char *argv[]) { uint64_t mask; int i, toopen, logic, igncase, toclose; struct expr *first, *prev, *cur, *next; first = cur = NULL; logic = igncase = toclose = 0; toopen = NULL != search->sec || NULL != search->arch; for (i = 0; i < argc; i++) { if (0 == strcmp("(", argv[i])) { if (igncase) goto fail; toopen++; toclose++; continue; } else if (0 == strcmp(")", argv[i])) { if (toopen || logic || igncase || NULL == cur) goto fail; cur->close++; if (0 > --toclose) goto fail; continue; } else if (0 == strcmp("-a", argv[i])) { if (toopen || logic || igncase || NULL == cur) goto fail; logic = 1; continue; } else if (0 == strcmp("-o", argv[i])) { if (toopen || logic || igncase || NULL == cur) goto fail; logic = 2; continue; } else if (0 == strcmp("-i", argv[i])) { if (igncase) goto fail; igncase = 1; continue; } next = exprterm(search, argv[i], !igncase); if (NULL == next) goto fail; if (NULL == first) first = next; else cur->next = next; prev = cur = next; /* * Searching for descriptions must be split out * because they are stored in the mpages table, * not in the keys table. */ for (mask = TYPE_Nm; mask <= TYPE_Nd; mask <<= 1) { if (mask & cur->bits && ~mask & cur->bits) { next = mandoc_calloc(1, sizeof(struct expr)); memcpy(next, cur, sizeof(struct expr)); prev->open = 1; cur->bits = mask; cur->next = next; cur = next; cur->bits &= ~mask; } } prev->and = (1 == logic); prev->open += toopen; if (cur != prev) cur->close = 1; toopen = logic = igncase = 0; } if (toopen || logic || igncase || toclose) goto fail; if (NULL != search->sec || NULL != search->arch) cur->close++; if (NULL != search->arch) cur = exprspec(cur, TYPE_arch, search->arch, "^(%s|any)$"); if (NULL != search->sec) exprspec(cur, TYPE_sec, search->sec, "^%s$"); return(first); fail: if (NULL != first) exprfree(first); return(NULL); } static struct expr * exprspec(struct expr *cur, uint64_t key, const char *value, const char *format) { char errbuf[BUFSIZ]; char *cp; int irc; mandoc_asprintf(&cp, format, value); cur->next = mandoc_calloc(1, sizeof(struct expr)); cur = cur->next; cur->and = 1; cur->bits = key; if (0 != (irc = regcomp(&cur->regexp, cp, REG_EXTENDED | REG_NOSUB | REG_ICASE))) { regerror(irc, &cur->regexp, errbuf, sizeof(errbuf)); fprintf(stderr, "regcomp: %s\n", errbuf); cur->substr = value; } free(cp); return(cur); } static struct expr * exprterm(const struct mansearch *search, char *buf, int cs) { char errbuf[BUFSIZ]; struct expr *e; char *key, *val; uint64_t iterbit; int i, irc; if ('\0' == *buf) return(NULL); e = mandoc_calloc(1, sizeof(struct expr)); if (MANSEARCH_MAN & search->flags) { e->bits = search->deftype; e->substr = buf; e->equal = 1; return(e); } /* * Look for an '=' or '~' operator, * unless forced to some fixed macro keys. */ if (MANSEARCH_WHATIS & search->flags) val = NULL; else val = strpbrk(buf, "=~"); if (NULL == val) { e->bits = search->deftype; e->substr = buf; /* * Found an operator. * Regexp search is requested by !e->substr. */ } else { if (val == buf) e->bits = search->deftype; if ('=' == *val) e->substr = val + 1; *val++ = '\0'; if (NULL != strstr(buf, "arch")) cs = 0; } /* Compile regular expressions. */ if (MANSEARCH_WHATIS & search->flags) { e->substr = NULL; mandoc_asprintf(&val, "[[:<:]]%s[[:>:]]", buf); } if (NULL == e->substr) { irc = regcomp(&e->regexp, val, REG_EXTENDED | REG_NOSUB | (cs ? 0 : REG_ICASE)); if (MANSEARCH_WHATIS & search->flags) free(val); if (irc) { regerror(irc, &e->regexp, errbuf, sizeof(errbuf)); fprintf(stderr, "regcomp: %s\n", errbuf); free(e); return(NULL); } } if (e->bits) return(e); /* * Parse out all possible fields. * If the field doesn't resolve, bail. */ while (NULL != (key = strsep(&buf, ","))) { if ('\0' == *key) continue; for (i = 0, iterbit = 1; i < mansearch_keymax; i++, iterbit <<= 1) { if (0 == strcasecmp(key, mansearch_keynames[i])) { e->bits |= iterbit; break; } } if (i == mansearch_keymax) { if (strcasecmp(key, "any")) { free(e); return(NULL); } e->bits |= ~0ULL; } } return(e); } static void exprfree(struct expr *p) { struct expr *pp; while (NULL != p) { pp = p->next; free(p); p = pp; } } static void * hash_calloc(size_t nmemb, size_t sz, void *arg) { return(mandoc_calloc(nmemb, sz)); } static void * hash_alloc(size_t sz, void *arg) { return(mandoc_malloc(sz)); } static void hash_free(void *p, void *arg) { free(p); }