/* $Id$ */ /* * Copyright (c) 2011, 2012 Kristaps Dzonsons * Copyright (c) 2011, 2012, 2013 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 #include #include #ifdef HAVE_OHASH #include #else #include "compat_ohash.h" #endif #include #include "mdoc.h" #include "man.h" #include "mandoc.h" #include "manpath.h" #include "mansearch.h" #define SQL_EXEC(_v) \ if (SQLITE_OK != sqlite3_exec(db, (_v), NULL, NULL, NULL)) \ fprintf(stderr, "%s\n", sqlite3_errmsg(db)) #define SQL_BIND_TEXT(_s, _i, _v) \ if (SQLITE_OK != sqlite3_bind_text \ ((_s), (_i)++, (_v), -1, SQLITE_STATIC)) \ fprintf(stderr, "%s\n", sqlite3_errmsg(db)) #define SQL_BIND_INT(_s, _i, _v) \ if (SQLITE_OK != sqlite3_bind_int \ ((_s), (_i)++, (_v))) \ fprintf(stderr, "%s\n", sqlite3_errmsg(db)) #define SQL_BIND_INT64(_s, _i, _v) \ if (SQLITE_OK != sqlite3_bind_int64 \ ((_s), (_i)++, (_v))) \ fprintf(stderr, "%s\n", sqlite3_errmsg(db)) #define SQL_STEP(_s) \ if (SQLITE_DONE != sqlite3_step((_s))) \ fprintf(stderr, "%s\n", sqlite3_errmsg(db)) enum op { OP_DEFAULT = 0, /* new dbs from dir list or default config */ OP_CONFFILE, /* new databases from custom config file */ OP_UPDATE, /* delete/add entries in existing database */ OP_DELETE, /* delete entries from existing database */ OP_TEST /* change no databases, report potential problems */ }; enum form { FORM_SRC, /* format is -man or -mdoc */ FORM_CAT, /* format is cat */ FORM_NONE /* format is unknown */ }; struct str { char *utf8; /* key in UTF-8 form */ const struct mpage *mpage; /* if set, the owning parse */ uint64_t mask; /* bitmask in sequence */ char key[]; /* the string itself */ }; struct id { ino_t ino; dev_t dev; }; struct mpage { struct id id; /* used for hashing routine */ struct mpage *next; /* next in mpages_list */ enum form dform; /* path-cued form */ enum form sform; /* suffix-cued form */ char file[PATH_MAX]; /* filename rel. to manpath */ char *desc; /* parsed description */ char *name; /* name (from filename) (not empty) */ char *sec; /* suffix-cued section (or empty) */ char *dsec; /* path-cued section (or empty) */ char *arch; /* path-cued arch. (or empty) */ }; struct title { char *title; /* name(sec/arch) given inside the file */ char *file; /* file name in case of mismatch */ }; enum stmt { STMT_DELETE = 0, /* delete manpage */ STMT_INSERT_DOC, /* insert manpage */ STMT_INSERT_KEY, /* insert parsed key */ STMT__MAX }; typedef int (*mdoc_fp)(struct mpage *, const struct mdoc_node *); struct mdoc_handler { mdoc_fp fp; /* optional handler */ uint64_t mask; /* set unless handler returns 0 */ }; static void dbclose(int); static void dbindex(struct mchars *, int, const struct mpage *); static int dbopen(int); static void dbprune(void); static void fileadd(struct mpage *); static int filecheck(const char *); static void filescan(const char *); static void *hash_alloc(size_t, void *); static void hash_free(void *, size_t, void *); static void *hash_halloc(size_t, void *); static void inoadd(const struct stat *, struct mpage *); static int inocheck(const struct stat *); static void ofadd(int, const char *, const char *, const char *, const char *, const char *, const struct stat *); static void mpages_free(void); static void mpages_merge(struct mchars *, struct mparse *, int); static void parse_cat(struct mpage *); static void parse_man(struct mpage *, const struct man_node *); static void parse_mdoc(struct mpage *, const struct mdoc_node *); static int parse_mdoc_body(struct mpage *, const struct mdoc_node *); static int parse_mdoc_head(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Fd(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Fn(struct mpage *, const struct mdoc_node *); static int parse_mdoc_In(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Nd(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Nm(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Sh(struct mpage *, const struct mdoc_node *); static int parse_mdoc_St(struct mpage *, const struct mdoc_node *); static int parse_mdoc_Xr(struct mpage *, const struct mdoc_node *); static int set_basedir(const char *); static void putkey(const struct mpage *, const char *, uint64_t); static void putkeys(const struct mpage *, const char *, size_t, uint64_t); static void putmdockey(const struct mpage *, const struct mdoc_node *, uint64_t); static void say(const char *, const char *, ...); static int treescan(void); static size_t utf8(unsigned int, char [7]); static void utf8key(struct mchars *, struct str *); static char *progname; static int use_all; /* use all found files */ static int nodb; /* no database changes */ static int verb; /* print what we're doing */ static int warnings; /* warn about crap */ static int exitcode; /* to be returned by main */ static enum op op; /* operational mode */ static char basedir[PATH_MAX]; /* current base directory */ static struct ohash mpages; /* table of distinct manual pages */ static struct ohash filenames; /* table of filenames */ static struct ohash strings; /* table of all strings */ static struct mpage *mpages_list = NULL; /* vector of files to parse */ static sqlite3 *db = NULL; /* current database */ static sqlite3_stmt *stmts[STMT__MAX]; /* current statements */ static const struct mdoc_handler mdocs[MDOC_MAX] = { { NULL, 0 }, /* Ap */ { NULL, 0 }, /* Dd */ { NULL, 0 }, /* Dt */ { NULL, 0 }, /* Os */ { parse_mdoc_Sh, TYPE_Sh }, /* Sh */ { parse_mdoc_head, TYPE_Ss }, /* Ss */ { NULL, 0 }, /* Pp */ { NULL, 0 }, /* D1 */ { NULL, 0 }, /* Dl */ { NULL, 0 }, /* Bd */ { NULL, 0 }, /* Ed */ { NULL, 0 }, /* Bl */ { NULL, 0 }, /* El */ { NULL, 0 }, /* It */ { NULL, 0 }, /* Ad */ { NULL, TYPE_An }, /* An */ { NULL, TYPE_Ar }, /* Ar */ { NULL, TYPE_Cd }, /* Cd */ { NULL, TYPE_Cm }, /* Cm */ { NULL, TYPE_Dv }, /* Dv */ { NULL, TYPE_Er }, /* Er */ { NULL, TYPE_Ev }, /* Ev */ { NULL, 0 }, /* Ex */ { NULL, TYPE_Fa }, /* Fa */ { parse_mdoc_Fd, 0 }, /* Fd */ { NULL, TYPE_Fl }, /* Fl */ { parse_mdoc_Fn, 0 }, /* Fn */ { NULL, TYPE_Ft }, /* Ft */ { NULL, TYPE_Ic }, /* Ic */ { parse_mdoc_In, TYPE_In }, /* In */ { NULL, TYPE_Li }, /* Li */ { parse_mdoc_Nd, TYPE_Nd }, /* Nd */ { parse_mdoc_Nm, TYPE_Nm }, /* Nm */ { NULL, 0 }, /* Op */ { NULL, 0 }, /* Ot */ { NULL, TYPE_Pa }, /* Pa */ { NULL, 0 }, /* Rv */ { parse_mdoc_St, 0 }, /* St */ { NULL, TYPE_Va }, /* Va */ { parse_mdoc_body, TYPE_Va }, /* Vt */ { parse_mdoc_Xr, 0 }, /* Xr */ { NULL, 0 }, /* %A */ { NULL, 0 }, /* %B */ { NULL, 0 }, /* %D */ { NULL, 0 }, /* %I */ { NULL, 0 }, /* %J */ { NULL, 0 }, /* %N */ { NULL, 0 }, /* %O */ { NULL, 0 }, /* %P */ { NULL, 0 }, /* %R */ { NULL, 0 }, /* %T */ { NULL, 0 }, /* %V */ { NULL, 0 }, /* Ac */ { NULL, 0 }, /* Ao */ { NULL, 0 }, /* Aq */ { NULL, TYPE_At }, /* At */ { NULL, 0 }, /* Bc */ { NULL, 0 }, /* Bf */ { NULL, 0 }, /* Bo */ { NULL, 0 }, /* Bq */ { NULL, TYPE_Bsx }, /* Bsx */ { NULL, TYPE_Bx }, /* Bx */ { NULL, 0 }, /* Db */ { NULL, 0 }, /* Dc */ { NULL, 0 }, /* Do */ { NULL, 0 }, /* Dq */ { NULL, 0 }, /* Ec */ { NULL, 0 }, /* Ef */ { NULL, TYPE_Em }, /* Em */ { NULL, 0 }, /* Eo */ { NULL, TYPE_Fx }, /* Fx */ { NULL, TYPE_Ms }, /* Ms */ { NULL, 0 }, /* No */ { NULL, 0 }, /* Ns */ { NULL, TYPE_Nx }, /* Nx */ { NULL, TYPE_Ox }, /* Ox */ { NULL, 0 }, /* Pc */ { NULL, 0 }, /* Pf */ { NULL, 0 }, /* Po */ { NULL, 0 }, /* Pq */ { NULL, 0 }, /* Qc */ { NULL, 0 }, /* Ql */ { NULL, 0 }, /* Qo */ { NULL, 0 }, /* Qq */ { NULL, 0 }, /* Re */ { NULL, 0 }, /* Rs */ { NULL, 0 }, /* Sc */ { NULL, 0 }, /* So */ { NULL, 0 }, /* Sq */ { NULL, 0 }, /* Sm */ { NULL, 0 }, /* Sx */ { NULL, TYPE_Sy }, /* Sy */ { NULL, TYPE_Tn }, /* Tn */ { NULL, 0 }, /* Ux */ { NULL, 0 }, /* Xc */ { NULL, 0 }, /* Xo */ { parse_mdoc_head, 0 }, /* Fo */ { NULL, 0 }, /* Fc */ { NULL, 0 }, /* Oo */ { NULL, 0 }, /* Oc */ { NULL, 0 }, /* Bk */ { NULL, 0 }, /* Ek */ { NULL, 0 }, /* Bt */ { NULL, 0 }, /* Hf */ { NULL, 0 }, /* Fr */ { NULL, 0 }, /* Ud */ { NULL, TYPE_Lb }, /* Lb */ { NULL, 0 }, /* Lp */ { NULL, TYPE_Lk }, /* Lk */ { NULL, TYPE_Mt }, /* Mt */ { NULL, 0 }, /* Brq */ { NULL, 0 }, /* Bro */ { NULL, 0 }, /* Brc */ { NULL, 0 }, /* %C */ { NULL, 0 }, /* Es */ { NULL, 0 }, /* En */ { NULL, TYPE_Dx }, /* Dx */ { NULL, 0 }, /* %Q */ { NULL, 0 }, /* br */ { NULL, 0 }, /* sp */ { NULL, 0 }, /* %U */ { NULL, 0 }, /* Ta */ }; int main(int argc, char *argv[]) { int ch, i; size_t j, sz; const char *path_arg; struct mchars *mc; struct manpaths dirs; struct mparse *mp; struct ohash_info mpages_info, filename_info; memset(stmts, 0, STMT__MAX * sizeof(sqlite3_stmt *)); memset(&dirs, 0, sizeof(struct manpaths)); mpages_info.alloc = filename_info.alloc = hash_alloc; mpages_info.halloc = filename_info.halloc = hash_halloc; mpages_info.hfree = filename_info.hfree = hash_free; mpages_info.key_offset = offsetof(struct mpage, id); filename_info.key_offset = offsetof(struct mpage, file); progname = strrchr(argv[0], '/'); if (progname == NULL) progname = argv[0]; else ++progname; /* * We accept a few different invocations. * The CHECKOP macro makes sure that invocation styles don't * clobber each other. */ #define CHECKOP(_op, _ch) do \ if (OP_DEFAULT != (_op)) { \ fprintf(stderr, "-%c: Conflicting option\n", (_ch)); \ goto usage; \ } while (/*CONSTCOND*/0) path_arg = NULL; op = OP_DEFAULT; while (-1 != (ch = getopt(argc, argv, "aC:d:ntu:vW"))) switch (ch) { case ('a'): use_all = 1; break; case ('C'): CHECKOP(op, ch); path_arg = optarg; op = OP_CONFFILE; break; case ('d'): CHECKOP(op, ch); path_arg = optarg; op = OP_UPDATE; break; case ('n'): nodb = 1; break; case ('t'): CHECKOP(op, ch); dup2(STDOUT_FILENO, STDERR_FILENO); op = OP_TEST; nodb = warnings = 1; break; case ('u'): CHECKOP(op, ch); path_arg = optarg; op = OP_DELETE; break; case ('v'): verb++; break; case ('W'): warnings = 1; break; default: goto usage; } argc -= optind; argv += optind; if (OP_CONFFILE == op && argc > 0) { fprintf(stderr, "-C: Too many arguments\n"); goto usage; } exitcode = (int)MANDOCLEVEL_OK; mp = mparse_alloc(MPARSE_AUTO, MANDOCLEVEL_FATAL, NULL, NULL, NULL); mc = mchars_alloc(); ohash_init(&mpages, 6, &mpages_info); ohash_init(&filenames, 6, &filename_info); if (OP_UPDATE == op || OP_DELETE == op || OP_TEST == op) { /* * Force processing all files. */ use_all = 1; /* * All of these deal with a specific directory. * Jump into that directory then collect files specified * on the command-line. */ if (0 == set_basedir(path_arg)) goto out; for (i = 0; i < argc; i++) filescan(argv[i]); if (0 == dbopen(1)) goto out; if (OP_TEST != op) dbprune(); if (OP_DELETE != op) mpages_merge(mc, mp, 0); dbclose(1); } else { /* * If we have arguments, use them as our manpaths. * If we don't, grok from manpath(1) or however else * manpath_parse() wants to do it. */ if (argc > 0) { dirs.paths = mandoc_calloc (argc, sizeof(char *)); dirs.sz = (size_t)argc; for (i = 0; i < argc; i++) dirs.paths[i] = mandoc_strdup(argv[i]); } else manpath_parse(&dirs, path_arg, NULL, NULL); /* * First scan the tree rooted at a base directory, then * build a new database and finally move it into place. * Ignore zero-length directories and strip trailing * slashes. */ for (j = 0; j < dirs.sz; j++) { sz = strlen(dirs.paths[j]); if (sz && '/' == dirs.paths[j][sz - 1]) dirs.paths[j][--sz] = '\0'; if (0 == sz) continue; if (j) { ohash_init(&mpages, 6, &mpages_info); ohash_init(&filenames, 6, &filename_info); } if (0 == set_basedir(dirs.paths[j])) goto out; if (0 == treescan()) goto out; if (0 == set_basedir(dirs.paths[j])) goto out; if (0 == dbopen(0)) goto out; mpages_merge(mc, mp, warnings && !use_all); dbclose(0); if (j + 1 < dirs.sz) { ohash_delete(&mpages); ohash_delete(&filenames); mpages_free(); } } } out: set_basedir(NULL); manpath_free(&dirs); mchars_free(mc); mparse_free(mp); ohash_delete(&mpages); ohash_delete(&filenames); mpages_free(); return(exitcode); usage: fprintf(stderr, "usage: %s [-anvW] [-C file]\n" " %s [-anvW] dir ...\n" " %s [-nvW] -d dir [file ...]\n" " %s [-nvW] -u dir [file ...]\n" " %s -t file ...\n", progname, progname, progname, progname, progname); return((int)MANDOCLEVEL_BADARG); } /* * Scan a directory tree rooted at "basedir" for manpages. * We use fts(), scanning directory parts along the way for clues to our * section and architecture. * * If use_all has been specified, grok all files. * If not, sanitise paths to the following: * * [./]man*[/]/.
* or * [./]cat
[/]/.0 * * TODO: accomodate for multi-language directories. */ static int treescan(void) { FTS *f; FTSENT *ff; int dform; char *sec; const char *dsec, *arch, *cp, *path; const char *argv[2]; argv[0] = "."; argv[1] = (char *)NULL; /* * Walk through all components under the directory, using the * logical descent of files. */ f = fts_open((char * const *)argv, FTS_LOGICAL, NULL); if (NULL == f) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", NULL); return(0); } dsec = arch = NULL; dform = FORM_NONE; while (NULL != (ff = fts_read(f))) { path = ff->fts_path + 2; /* * If we're a regular file, add an mpage by using the * stored directory data and handling the filename. * Disallow duplicate (hard-linked) files. */ if (FTS_F == ff->fts_info) { if (0 == strcmp(path, MANDOC_DB)) continue; if ( ! use_all && ff->fts_level < 2) { if (warnings) say(path, "Extraneous file"); continue; } else if (inocheck(ff->fts_statp)) { if (warnings) say(path, "Duplicate file"); continue; } else if (NULL == (sec = strrchr(ff->fts_name, '.'))) { if ( ! use_all) { if (warnings) say(path, "No filename suffix"); continue; } } else if (0 == strcmp(++sec, "html")) { if (warnings) say(path, "Skip html"); continue; } else if (0 == strcmp(sec, "gz")) { if (warnings) say(path, "Skip gz"); continue; } else if (0 == strcmp(sec, "ps")) { if (warnings) say(path, "Skip ps"); continue; } else if (0 == strcmp(sec, "pdf")) { if (warnings) say(path, "Skip pdf"); continue; } else if ( ! use_all && ((FORM_SRC == dform && strcmp(sec, dsec)) || (FORM_CAT == dform && strcmp(sec, "0")))) { if (warnings) say(path, "Wrong filename suffix"); continue; } else sec[-1] = '\0'; ofadd(dform, path, ff->fts_name, dsec, sec, arch, ff->fts_statp); continue; } else if (FTS_D != ff->fts_info && FTS_DP != ff->fts_info) { if (warnings) say(path, "Not a regular file"); continue; } switch (ff->fts_level) { case (0): /* Ignore the root directory. */ break; case (1): /* * This might contain manX/ or catX/. * Try to infer this from the name. * If we're not in use_all, enforce it. */ dsec = NULL; dform = FORM_NONE; cp = ff->fts_name; if (FTS_DP == ff->fts_info) break; if (0 == strncmp(cp, "man", 3)) { dform = FORM_SRC; dsec = cp + 3; } else if (0 == strncmp(cp, "cat", 3)) { dform = FORM_CAT; dsec = cp + 3; } if (NULL != dsec || use_all) break; if (warnings) say(path, "Unknown directory part"); fts_set(f, ff, FTS_SKIP); break; case (2): /* * Possibly our architecture. * If we're descending, keep tabs on it. */ arch = NULL; if (FTS_DP != ff->fts_info && NULL != dsec) arch = ff->fts_name; break; default: if (FTS_DP == ff->fts_info || use_all) break; if (warnings) say(path, "Extraneous directory part"); fts_set(f, ff, FTS_SKIP); break; } } fts_close(f); return(1); } /* * Add a file to the file vector. * Do not verify that it's a "valid" looking manpage (we'll do that * later). * * Try to infer the manual section, architecture, and page name from the * path, assuming it looks like * * [./]man*[/]/.
* or * [./]cat
[/]/.0 * * Stuff this information directly into the mpage vector. * See treescan() for the fts(3) version of this. */ static void filescan(const char *file) { char buf[PATH_MAX]; const char *sec, *arch, *name, *dsec; char *p, *start; int dform; struct stat st; assert(use_all); if (0 == strncmp(file, "./", 2)) file += 2; if (NULL == realpath(file, buf)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, NULL); return; } else if (OP_TEST != op && strstr(buf, basedir) != buf) { exitcode = (int)MANDOCLEVEL_BADARG; say("", "%s: outside base directory", buf); return; } else if (-1 == stat(buf, &st)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, NULL); return; } else if ( ! (S_IFREG & st.st_mode)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, "Not a regular file"); return; } else if (inocheck(&st)) { if (warnings) say(file, "Duplicate file"); return; } start = buf + strlen(basedir); sec = arch = name = dsec = NULL; dform = FORM_NONE; /* * First try to guess our directory structure. * If we find a separator, try to look for man* or cat*. * If we find one of these and what's underneath is a directory, * assume it's an architecture. */ if (NULL != (p = strchr(start, '/'))) { *p++ = '\0'; if (0 == strncmp(start, "man", 3)) { dform = FORM_SRC; dsec = start + 3; } else if (0 == strncmp(start, "cat", 3)) { dform = FORM_CAT; dsec = start + 3; } start = p; if (NULL != dsec && NULL != (p = strchr(start, '/'))) { *p++ = '\0'; arch = start; start = p; } } /* * Now check the file suffix. * Suffix of `.0' indicates a catpage, `.1-9' is a manpage. */ p = strrchr(start, '\0'); while (p-- > start && '/' != *p && '.' != *p) /* Loop. */ ; if ('.' == *p) { *p++ = '\0'; sec = p; } /* * Now try to parse the name. * Use the filename portion of the path. */ name = start; if (NULL != (p = strrchr(start, '/'))) { name = p + 1; *p = '\0'; } ofadd(dform, file, name, dsec, sec, arch, &st); } /* * See fileadd(). */ static int filecheck(const char *name) { return(NULL != ohash_find(&filenames, ohash_qlookup(&filenames, name))); } /* * Use the standard hashing mechanism (K&R) to see if the given filename * already exists. */ static void fileadd(struct mpage *mpage) { unsigned int slot; slot = ohash_qlookup(&filenames, mpage->file); assert(NULL == ohash_find(&filenames, slot)); ohash_insert(&filenames, slot, mpage); } /* * See inoadd(). */ static int inocheck(const struct stat *st) { struct id id; uint32_t hash; memset(&id, 0, sizeof(id)); id.ino = hash = st->st_ino; id.dev = st->st_dev; return(NULL != ohash_find(&mpages, ohash_lookup_memory( &mpages, (char *)&id, sizeof(id), hash))); } /* * The hashing function used here is quite simple: simply take the inode * and use uint32_t of its bits. * Then when we do the lookup, use both the inode and device identifier. */ static void inoadd(const struct stat *st, struct mpage *mpage) { uint32_t hash; unsigned int slot; mpage->id.ino = hash = st->st_ino; mpage->id.dev = st->st_dev; slot = ohash_lookup_memory (&mpages, (char *)&mpage->id, sizeof(mpage->id), hash); assert(NULL == ohash_find(&mpages, slot)); ohash_insert(&mpages, slot, mpage); } static void ofadd(int dform, const char *file, const char *name, const char *dsec, const char *sec, const char *arch, const struct stat *st) { struct mpage *mpage; int sform; assert(NULL != file); if (NULL == name) name = ""; if (NULL == sec) sec = ""; if (NULL == dsec) dsec = ""; if (NULL == arch) arch = ""; if ('0' == *sec) { sec = dsec; sform = FORM_CAT; } else if ('1' <= *sec && '9' >= *sec) sform = FORM_SRC; else sform = FORM_NONE; mpage = mandoc_calloc(1, sizeof(struct mpage)); strlcpy(mpage->file, file, PATH_MAX); mpage->name = mandoc_strdup(name); mpage->sec = mandoc_strdup(sec); mpage->dsec = mandoc_strdup(dsec); mpage->arch = mandoc_strdup(arch); mpage->sform = sform; mpage->dform = dform; mpage->next = mpages_list; mpages_list = mpage; /* * Add to unique identifier hash. * Then if it's a source manual and we're going to use source in * favour of catpages, add it to that hash. */ inoadd(st, mpage); fileadd(mpage); } static void mpages_free(void) { struct mpage *mpage; while (NULL != (mpage = mpages_list)) { mpages_list = mpage->next; free(mpage->name); free(mpage->sec); free(mpage->dsec); free(mpage->arch); free(mpage); } } /* * Run through the files in the global vector "mpages_list" and add them to the * database specified in "basedir". * * This handles the parsing scheme itself, using the cues of directory * and filename to determine whether the file is parsable or not. */ static void mpages_merge(struct mchars *mc, struct mparse *mp, int check_reachable) { struct ohash title_table; struct ohash_info title_info, str_info; char buf[PATH_MAX]; struct mpage *mpage; struct mdoc *mdoc; struct man *man; struct title *title_entry; char *bufp, *title_str; const char *msec, *march, *mtitle, *cp; size_t sz; int form; int match; unsigned int slot; enum mandoclevel lvl; str_info.alloc = hash_alloc; str_info.halloc = hash_halloc; str_info.hfree = hash_free; str_info.key_offset = offsetof(struct str, key); if (check_reachable) { title_info.alloc = hash_alloc; title_info.halloc = hash_halloc; title_info.hfree = hash_free; title_info.key_offset = offsetof(struct title, title); ohash_init(&title_table, 6, &title_info); } for (mpage = mpages_list; NULL != mpage; mpage = mpage->next) { /* * If we're a catpage (as defined by our path), then see * if a manpage exists by the same name (ignoring the * suffix). * If it does, then we want to use it instead of our * own. */ if ( ! use_all && FORM_CAT == mpage->dform) { sz = strlcpy(buf, mpage->file, PATH_MAX); if (sz >= PATH_MAX) { if (warnings) say(mpage->file, "Filename too long"); continue; } bufp = strstr(buf, "cat"); assert(NULL != bufp); memcpy(bufp, "man", 3); if (NULL != (bufp = strrchr(buf, '.'))) *++bufp = '\0'; strlcat(buf, mpage->dsec, PATH_MAX); if (filecheck(buf)) { if (warnings) say(mpage->file, "Man " "source exists: %s", buf); continue; } } ohash_init(&strings, 6, &str_info); mparse_reset(mp); mdoc = NULL; man = NULL; match = 1; /* * Try interpreting the file as mdoc(7) or man(7) * source code, unless it is already known to be * formatted. Fall back to formatted mode. */ if (FORM_CAT != mpage->dform || FORM_CAT != mpage->sform) { lvl = mparse_readfd(mp, -1, mpage->file); if (lvl < MANDOCLEVEL_FATAL) mparse_result(mp, &mdoc, &man); } if (NULL != mdoc) { form = 1; msec = mdoc_meta(mdoc)->msec; march = mdoc_meta(mdoc)->arch; mtitle = mdoc_meta(mdoc)->title; } else if (NULL != man) { form = 1; msec = man_meta(man)->msec; march = mpage->arch; mtitle = man_meta(man)->title; } else { form = 0; msec = mpage->dsec; march = mpage->arch; mtitle = mpage->name; } if (NULL == msec) msec = ""; if (NULL == march) march = ""; if (NULL == mtitle) mtitle = ""; /* * Check whether the manual section given in a file * agrees with the directory where the file is located. * Some manuals have suffixes like (3p) on their * section number either inside the file or in the * directory name, some are linked into more than one * section, like encrypt(1) = makekey(8). Do not skip * manuals for such reasons. */ if (warnings && !use_all && form && strcasecmp(msec, mpage->dsec)) { match = 0; say(mpage->file, "Section \"%s\" " "manual in %s directory", msec, mpage->dsec); } /* * Manual page directories exist for each kernel * architecture as returned by machine(1). * However, many manuals only depend on the * application architecture as returned by arch(1). * For example, some (2/ARM) manuals are shared * across the "armish" and "zaurus" kernel * architectures. * A few manuals are even shared across completely * different architectures, for example fdformat(1) * on amd64, i386, sparc, and sparc64. * Thus, warn about architecture mismatches, * but don't skip manuals for this reason. */ if (warnings && !use_all && strcasecmp(march, mpage->arch)) { match = 0; say(mpage->file, "Architecture \"%s\" " "manual in \"%s\" directory", march, mpage->arch); } if (warnings && !use_all && strcasecmp(mtitle, mpage->name)) match = 0; putkey(mpage, mpage->name, TYPE_Nm); if (NULL != mdoc) { if (NULL != (cp = mdoc_meta(mdoc)->name)) putkey(mpage, cp, TYPE_Nm); assert(NULL == mpage->desc); parse_mdoc(mpage, mdoc_node(mdoc)); putkey(mpage, NULL != mpage->desc ? mpage->desc : mpage->name, TYPE_Nd); } else if (NULL != man) parse_man(mpage, man_node(man)); else parse_cat(mpage); /* * Build a title string for the file. If it matches * the location of the file, remember the title as * found; else, remember it as missing. */ if (check_reachable) { if (-1 == asprintf(&title_str, "%s(%s%s%s)", mtitle, msec, '\0' == *march ? "" : "/", march)) { perror(NULL); exit((int)MANDOCLEVEL_SYSERR); } slot = ohash_qlookup(&title_table, title_str); title_entry = ohash_find(&title_table, slot); if (NULL == title_entry) { title_entry = mandoc_malloc( sizeof(struct title)); title_entry->title = title_str; title_entry->file = mandoc_strdup( match ? "" : mpage->file); ohash_insert(&title_table, slot, title_entry); } else { if (match) *title_entry->file = '\0'; free(title_str); } } dbindex(mc, form, mpage); ohash_delete(&strings); } if (check_reachable) { title_entry = ohash_first(&title_table, &slot); while (NULL != title_entry) { if ('\0' != *title_entry->file) say(title_entry->file, "Probably unreachable, title is %s", title_entry->title); free(title_entry->title); free(title_entry->file); free(title_entry); title_entry = ohash_next(&title_table, &slot); } ohash_delete(&title_table); } } static void parse_cat(struct mpage *mpage) { FILE *stream; char *line, *p, *title; size_t len, plen, titlesz; if (NULL == (stream = fopen(mpage->file, "r"))) { if (warnings) say(mpage->file, NULL); return; } /* Skip to first blank line. */ while (NULL != (line = fgetln(stream, &len))) if ('\n' == *line) break; /* * Assume the first line that is not indented * is the first section header. Skip to it. */ while (NULL != (line = fgetln(stream, &len))) if ('\n' != *line && ' ' != *line) break; /* * Read up until the next section into a buffer. * Strip the leading and trailing newline from each read line, * appending a trailing space. * Ignore empty (whitespace-only) lines. */ titlesz = 0; title = NULL; while (NULL != (line = fgetln(stream, &len))) { if (' ' != *line || '\n' != line[len - 1]) break; while (len > 0 && isspace((unsigned char)*line)) { line++; len--; } if (1 == len) continue; title = mandoc_realloc(title, titlesz + len); memcpy(title + titlesz, line, len); titlesz += len; title[titlesz - 1] = ' '; } /* * If no page content can be found, or the input line * is already the next section header, or there is no * trailing newline, reuse the page title as the page * description. */ if (NULL == title || '\0' == *title) { if (warnings) say(mpage->file, "Cannot find NAME section"); assert(NULL == mpage->desc); mpage->desc = mandoc_strdup(mpage->name); putkey(mpage, mpage->name, TYPE_Nd); fclose(stream); free(title); return; } title = mandoc_realloc(title, titlesz + 1); title[titlesz] = '\0'; /* * Skip to the first dash. * Use the remaining line as the description (no more than 70 * bytes). */ if (NULL != (p = strstr(title, "- "))) { for (p += 2; ' ' == *p || '\b' == *p; p++) /* Skip to next word. */ ; } else { if (warnings) say(mpage->file, "No dash in title line"); p = title; } plen = strlen(p); /* Strip backspace-encoding from line. */ while (NULL != (line = memchr(p, '\b', plen))) { len = line - p; if (0 == len) { memmove(line, line + 1, plen--); continue; } memmove(line - 1, line + 1, plen - len); plen -= 2; } assert(NULL == mpage->desc); mpage->desc = mandoc_strdup(p); putkey(mpage, mpage->desc, TYPE_Nd); fclose(stream); free(title); } /* * Put a type/word pair into the word database for this particular file. */ static void putkey(const struct mpage *mpage, const char *value, uint64_t type) { assert(NULL != value); putkeys(mpage, value, strlen(value), type); } /* * Grok all nodes at or below a certain mdoc node into putkey(). */ static void putmdockey(const struct mpage *mpage, const struct mdoc_node *n, uint64_t m) { for ( ; NULL != n; n = n->next) { if (NULL != n->child) putmdockey(mpage, n->child, m); if (MDOC_TEXT == n->type) putkey(mpage, n->string, m); } } static void parse_man(struct mpage *mpage, const struct man_node *n) { const struct man_node *head, *body; char *start, *sv, *title; char byte; size_t sz, titlesz; if (NULL == n) return; /* * We're only searching for one thing: the first text child in * the BODY of a NAME section. Since we don't keep track of * sections in -man, run some hoops to find out whether we're in * the correct section or not. */ if (MAN_BODY == n->type && MAN_SH == n->tok) { body = n; assert(body->parent); if (NULL != (head = body->parent->head) && 1 == head->nchild && NULL != (head = (head->child)) && MAN_TEXT == head->type && 0 == strcmp(head->string, "NAME") && NULL != (body = body->child) && MAN_TEXT == body->type) { title = NULL; titlesz = 0; /* * Suck the entire NAME section into memory. * Yes, we might run away. * But too many manuals have big, spread-out * NAME sections over many lines. */ for ( ; NULL != body; body = body->next) { if (MAN_TEXT != body->type) break; if (0 == (sz = strlen(body->string))) continue; title = mandoc_realloc (title, titlesz + sz + 1); memcpy(title + titlesz, body->string, sz); titlesz += sz + 1; title[titlesz - 1] = ' '; } if (NULL == title) return; title = mandoc_realloc(title, titlesz + 1); title[titlesz] = '\0'; /* Skip leading space. */ sv = title; while (isspace((unsigned char)*sv)) sv++; if (0 == (sz = strlen(sv))) { free(title); return; } /* Erase trailing space. */ start = &sv[sz - 1]; while (start > sv && isspace((unsigned char)*start)) *start-- = '\0'; if (start == sv) { free(title); return; } start = sv; /* * Go through a special heuristic dance here. * Conventionally, one or more manual names are * comma-specified prior to a whitespace, then a * dash, then a description. Try to puzzle out * the name parts here. */ for ( ;; ) { sz = strcspn(start, " ,"); if ('\0' == start[sz]) break; byte = start[sz]; start[sz] = '\0'; putkey(mpage, start, TYPE_Nm); if (' ' == byte) { start += sz + 1; break; } assert(',' == byte); start += sz + 1; while (' ' == *start) start++; } if (sv == start) { putkey(mpage, start, TYPE_Nm); free(title); return; } while (isspace((unsigned char)*start)) start++; if (0 == strncmp(start, "-", 1)) start += 1; else if (0 == strncmp(start, "\\-\\-", 4)) start += 4; else if (0 == strncmp(start, "\\-", 2)) start += 2; else if (0 == strncmp(start, "\\(en", 4)) start += 4; else if (0 == strncmp(start, "\\(em", 4)) start += 4; while (' ' == *start) start++; assert(NULL == mpage->desc); mpage->desc = mandoc_strdup(start); putkey(mpage, mpage->desc, TYPE_Nd); free(title); return; } } for (n = n->child; n; n = n->next) { if (NULL != mpage->desc) break; parse_man(mpage, n); } } static void parse_mdoc(struct mpage *mpage, const struct mdoc_node *n) { assert(NULL != n); for (n = n->child; NULL != n; n = n->next) { switch (n->type) { case (MDOC_ELEM): /* FALLTHROUGH */ case (MDOC_BLOCK): /* FALLTHROUGH */ case (MDOC_HEAD): /* FALLTHROUGH */ case (MDOC_BODY): /* FALLTHROUGH */ case (MDOC_TAIL): if (NULL != mdocs[n->tok].fp) if (0 == (*mdocs[n->tok].fp)(mpage, n)) break; if (mdocs[n->tok].mask) putmdockey(mpage, n->child, mdocs[n->tok].mask); break; default: assert(MDOC_ROOT != n->type); continue; } if (NULL != n->child) parse_mdoc(mpage, n); } } static int parse_mdoc_Fd(struct mpage *mpage, const struct mdoc_node *n) { const char *start, *end; size_t sz; if (SEC_SYNOPSIS != n->sec || NULL == (n = n->child) || MDOC_TEXT != n->type) return(0); /* * Only consider those `Fd' macro fields that begin with an * "inclusion" token (versus, e.g., #define). */ if (strcmp("#include", n->string)) return(0); if (NULL == (n = n->next) || MDOC_TEXT != n->type) return(0); /* * Strip away the enclosing angle brackets and make sure we're * not zero-length. */ start = n->string; if ('<' == *start || '"' == *start) start++; if (0 == (sz = strlen(start))) return(0); end = &start[(int)sz - 1]; if ('>' == *end || '"' == *end) end--; if (end > start) putkeys(mpage, start, end - start + 1, TYPE_In); return(1); } static int parse_mdoc_In(struct mpage *mpage, const struct mdoc_node *n) { if (NULL != n->child && MDOC_TEXT == n->child->type) return(0); putkey(mpage, n->child->string, TYPE_In); return(1); } static int parse_mdoc_Fn(struct mpage *mpage, const struct mdoc_node *n) { const char *cp; if (NULL == (n = n->child) || MDOC_TEXT != n->type) return(0); /* * Parse: .Fn "struct type *name" "char *arg". * First strip away pointer symbol. * Then store the function name, then type. * Finally, store the arguments. */ if (NULL == (cp = strrchr(n->string, ' '))) cp = n->string; while ('*' == *cp) cp++; putkey(mpage, cp, TYPE_Fn); if (n->string < cp) putkeys(mpage, n->string, cp - n->string, TYPE_Ft); for (n = n->next; NULL != n; n = n->next) if (MDOC_TEXT == n->type) putkey(mpage, n->string, TYPE_Fa); return(0); } static int parse_mdoc_St(struct mpage *mpage, const struct mdoc_node *n) { if (NULL == n->child || MDOC_TEXT != n->child->type) return(0); putkey(mpage, n->child->string, TYPE_St); return(1); } static int parse_mdoc_Xr(struct mpage *mpage, const struct mdoc_node *n) { char *cp; if (NULL == (n = n->child)) return(0); if (NULL == n->next) { putkey(mpage, n->string, TYPE_Xr); return(0); } if (-1 == asprintf(&cp, "%s(%s)", n->string, n->next->string)) { perror(NULL); exit((int)MANDOCLEVEL_SYSERR); } putkey(mpage, cp, TYPE_Xr); free(cp); return(0); } static int parse_mdoc_Nd(struct mpage *mpage, const struct mdoc_node *n) { size_t sz; if (MDOC_BODY != n->type) return(0); /* * Special-case the `Nd' because we need to put the description * into the document table. */ for (n = n->child; NULL != n; n = n->next) { if (MDOC_TEXT == n->type) { if (NULL != mpage->desc) { sz = strlen(mpage->desc) + strlen(n->string) + 2; mpage->desc = mandoc_realloc( mpage->desc, sz); strlcat(mpage->desc, " ", sz); strlcat(mpage->desc, n->string, sz); } else mpage->desc = mandoc_strdup(n->string); } if (NULL != n->child) parse_mdoc_Nd(mpage, n); } return(1); } static int parse_mdoc_Nm(struct mpage *mpage, const struct mdoc_node *n) { if (SEC_NAME == n->sec) return(1); else if (SEC_SYNOPSIS != n->sec || MDOC_HEAD != n->type) return(0); return(1); } static int parse_mdoc_Sh(struct mpage *mpage, const struct mdoc_node *n) { return(SEC_CUSTOM == n->sec && MDOC_HEAD == n->type); } static int parse_mdoc_head(struct mpage *mpage, const struct mdoc_node *n) { return(MDOC_HEAD == n->type); } static int parse_mdoc_body(struct mpage *mpage, const struct mdoc_node *n) { return(MDOC_BODY == n->type); } /* * Add a string to the hash table for the current manual. * Each string has a bitmask telling which macros it belongs to. * When we finish the manual, we'll dump the table. */ static void putkeys(const struct mpage *mpage, const char *cp, size_t sz, uint64_t v) { struct str *s; unsigned int slot; const char *end; if (0 == sz) return; end = cp + sz; slot = ohash_qlookupi(&strings, cp, &end); s = ohash_find(&strings, slot); if (NULL != s && mpage == s->mpage) { s->mask |= v; return; } else if (NULL == s) { s = mandoc_calloc(sizeof(struct str) + sz + 1, 1); memcpy(s->key, cp, sz); ohash_insert(&strings, slot, s); } s->mpage = mpage; s->mask = v; } /* * Take a Unicode codepoint and produce its UTF-8 encoding. * This isn't the best way to do this, but it works. * The magic numbers are from the UTF-8 packaging. * They're not as scary as they seem: read the UTF-8 spec for details. */ static size_t utf8(unsigned int cp, char out[7]) { size_t rc; rc = 0; if (cp <= 0x0000007F) { rc = 1; out[0] = (char)cp; } else if (cp <= 0x000007FF) { rc = 2; out[0] = (cp >> 6 & 31) | 192; out[1] = (cp & 63) | 128; } else if (cp <= 0x0000FFFF) { rc = 3; out[0] = (cp >> 12 & 15) | 224; out[1] = (cp >> 6 & 63) | 128; out[2] = (cp & 63) | 128; } else if (cp <= 0x001FFFFF) { rc = 4; out[0] = (cp >> 18 & 7) | 240; out[1] = (cp >> 12 & 63) | 128; out[2] = (cp >> 6 & 63) | 128; out[3] = (cp & 63) | 128; } else if (cp <= 0x03FFFFFF) { rc = 5; out[0] = (cp >> 24 & 3) | 248; out[1] = (cp >> 18 & 63) | 128; out[2] = (cp >> 12 & 63) | 128; out[3] = (cp >> 6 & 63) | 128; out[4] = (cp & 63) | 128; } else if (cp <= 0x7FFFFFFF) { rc = 6; out[0] = (cp >> 30 & 1) | 252; out[1] = (cp >> 24 & 63) | 128; out[2] = (cp >> 18 & 63) | 128; out[3] = (cp >> 12 & 63) | 128; out[4] = (cp >> 6 & 63) | 128; out[5] = (cp & 63) | 128; } else return(0); out[rc] = '\0'; return(rc); } /* * Store the UTF-8 version of a key, or alias the pointer if the key has * no UTF-8 transcription marks in it. */ static void utf8key(struct mchars *mc, struct str *key) { size_t sz, bsz, pos; char utfbuf[7], res[5]; char *buf; const char *seq, *cpp, *val; int len, u; enum mandoc_esc esc; assert(NULL == key->utf8); res[0] = '\\'; res[1] = '\t'; res[2] = ASCII_NBRSP; res[3] = ASCII_HYPH; res[4] = '\0'; val = key->key; bsz = strlen(val); /* * Pre-check: if we have no stop-characters, then set the * pointer as ourselvse and get out of here. */ if (strcspn(val, res) == bsz) { key->utf8 = key->key; return; } /* Pre-allocate by the length of the input */ buf = mandoc_malloc(++bsz); pos = 0; while ('\0' != *val) { /* * Halt on the first escape sequence. * This also halts on the end of string, in which case * we just copy, fallthrough, and exit the loop. */ if ((sz = strcspn(val, res)) > 0) { memcpy(&buf[pos], val, sz); pos += sz; val += sz; } if (ASCII_HYPH == *val) { buf[pos++] = '-'; val++; continue; } else if ('\t' == *val || ASCII_NBRSP == *val) { buf[pos++] = ' '; val++; continue; } else if ('\\' != *val) break; /* Read past the slash. */ val++; u = 0; /* * Parse the escape sequence and see if it's a * predefined character or special character. */ esc = mandoc_escape ((const char **)&val, &seq, &len); if (ESCAPE_ERROR == esc) break; if (ESCAPE_SPECIAL != esc) continue; if (0 == (u = mchars_spec2cp(mc, seq, len))) continue; /* * If we have a Unicode codepoint, try to convert that * to a UTF-8 byte string. */ cpp = utfbuf; if (0 == (sz = utf8(u, utfbuf))) continue; /* Copy the rendered glyph into the stream. */ sz = strlen(cpp); bsz += sz; buf = mandoc_realloc(buf, bsz); memcpy(&buf[pos], cpp, sz); pos += sz; } buf[pos] = '\0'; key->utf8 = buf; } /* * Flush the current page's terms (and their bits) into the database. * Wrap the entire set of additions in a transaction to make sqlite be a * little faster. * Also, UTF-8-encode the description at the last possible moment. */ static void dbindex(struct mchars *mc, int form, const struct mpage *mpage) { struct str *key; const char *desc; int64_t recno; size_t i; unsigned int slot; if (verb) say(mpage->file, "Adding to index"); if (nodb) return; desc = ""; if (NULL != mpage->desc && '\0' != *mpage->desc) { key = ohash_find(&strings, ohash_qlookup(&strings, mpage->desc)); assert(NULL != key); if (NULL == key->utf8) utf8key(mc, key); desc = key->utf8; } SQL_EXEC("BEGIN TRANSACTION"); i = 1; SQL_BIND_TEXT(stmts[STMT_INSERT_DOC], i, mpage->file); SQL_BIND_TEXT(stmts[STMT_INSERT_DOC], i, mpage->sec); SQL_BIND_TEXT(stmts[STMT_INSERT_DOC], i, mpage->arch); SQL_BIND_TEXT(stmts[STMT_INSERT_DOC], i, desc); SQL_BIND_INT(stmts[STMT_INSERT_DOC], i, form); SQL_STEP(stmts[STMT_INSERT_DOC]); recno = sqlite3_last_insert_rowid(db); sqlite3_reset(stmts[STMT_INSERT_DOC]); for (key = ohash_first(&strings, &slot); NULL != key; key = ohash_next(&strings, &slot)) { assert(key->mpage == mpage); if (NULL == key->utf8) utf8key(mc, key); i = 1; SQL_BIND_INT64(stmts[STMT_INSERT_KEY], i, key->mask); SQL_BIND_TEXT(stmts[STMT_INSERT_KEY], i, key->utf8); SQL_BIND_INT64(stmts[STMT_INSERT_KEY], i, recno); SQL_STEP(stmts[STMT_INSERT_KEY]); sqlite3_reset(stmts[STMT_INSERT_KEY]); if (key->utf8 != key->key) free(key->utf8); free(key); } SQL_EXEC("END TRANSACTION"); } static void dbprune(void) { struct mpage *mpage; size_t i; if (nodb) return; for (mpage = mpages_list; NULL != mpage; mpage = mpage->next) { i = 1; SQL_BIND_TEXT(stmts[STMT_DELETE], i, mpage->file); SQL_STEP(stmts[STMT_DELETE]); sqlite3_reset(stmts[STMT_DELETE]); if (verb) say(mpage->file, "Deleted from index"); } } /* * Close an existing database and its prepared statements. * If "real" is not set, rename the temporary file into the real one. */ static void dbclose(int real) { size_t i; if (nodb) return; for (i = 0; i < STMT__MAX; i++) { sqlite3_finalize(stmts[i]); stmts[i] = NULL; } sqlite3_close(db); db = NULL; if (real) return; if (-1 == rename(MANDOC_DB "~", MANDOC_DB)) { exitcode = (int)MANDOCLEVEL_SYSERR; say(MANDOC_DB, NULL); } } /* * This is straightforward stuff. * Open a database connection to a "temporary" database, then open a set * of prepared statements we'll use over and over again. * If "real" is set, we use the existing database; if not, we truncate a * temporary one. * Must be matched by dbclose(). */ static int dbopen(int real) { const char *file, *sql; int rc, ofl; if (nodb) return(1); ofl = SQLITE_OPEN_READWRITE; if (0 == real) { file = MANDOC_DB "~"; if (-1 == remove(file) && ENOENT != errno) { exitcode = (int)MANDOCLEVEL_SYSERR; say(file, NULL); return(0); } ofl |= SQLITE_OPEN_EXCLUSIVE; } else file = MANDOC_DB; rc = sqlite3_open_v2(file, &db, ofl, NULL); if (SQLITE_OK == rc) goto prepare_statements; if (SQLITE_CANTOPEN != rc) { exitcode = (int)MANDOCLEVEL_SYSERR; say(file, NULL); return(0); } sqlite3_close(db); db = NULL; if (SQLITE_OK != (rc = sqlite3_open(file, &db))) { exitcode = (int)MANDOCLEVEL_SYSERR; say(file, NULL); return(0); } sql = "CREATE TABLE \"docs\" (\n" " \"file\" TEXT NOT NULL,\n" " \"sec\" TEXT NOT NULL,\n" " \"arch\" TEXT NOT NULL,\n" " \"desc\" TEXT NOT NULL,\n" " \"form\" INTEGER NOT NULL,\n" " \"id\" INTEGER PRIMARY KEY AUTOINCREMENT NOT NULL\n" ");\n" "\n" "CREATE TABLE \"keys\" (\n" " \"bits\" INTEGER NOT NULL,\n" " \"key\" TEXT NOT NULL,\n" " \"docid\" INTEGER NOT NULL REFERENCES docs(id) " "ON DELETE CASCADE,\n" " \"id\" INTEGER PRIMARY KEY AUTOINCREMENT NOT NULL\n" ");\n" "\n" "CREATE INDEX \"key_index\" ON keys (key);\n"; if (SQLITE_OK != sqlite3_exec(db, sql, NULL, NULL, NULL)) { exitcode = (int)MANDOCLEVEL_SYSERR; say(file, "%s", sqlite3_errmsg(db)); return(0); } prepare_statements: SQL_EXEC("PRAGMA foreign_keys = ON"); sql = "DELETE FROM docs where file=?"; sqlite3_prepare_v2(db, sql, -1, &stmts[STMT_DELETE], NULL); sql = "INSERT INTO docs " "(file,sec,arch,desc,form) VALUES (?,?,?,?,?)"; sqlite3_prepare_v2(db, sql, -1, &stmts[STMT_INSERT_DOC], NULL); sql = "INSERT INTO keys " "(bits,key,docid) VALUES (?,?,?)"; sqlite3_prepare_v2(db, sql, -1, &stmts[STMT_INSERT_KEY], NULL); #ifndef __APPLE__ /* * When opening a new database, we can turn off * synchronous mode for much better performance. */ if (real) SQL_EXEC("PRAGMA synchronous = OFF"); #endif return(1); } static void * hash_halloc(size_t sz, void *arg) { return(mandoc_calloc(sz, 1)); } static void * hash_alloc(size_t sz, void *arg) { return(mandoc_malloc(sz)); } static void hash_free(void *p, size_t sz, void *arg) { free(p); } static int set_basedir(const char *targetdir) { static char startdir[PATH_MAX]; static int fd; /* * Remember where we started by keeping a fd open to the origin * path component: throughout this utility, we chdir() a lot to * handle relative paths, and by doing this, we can return to * the starting point. */ if ('\0' == *startdir) { if (NULL == getcwd(startdir, PATH_MAX)) { exitcode = (int)MANDOCLEVEL_SYSERR; if (NULL != targetdir) say(".", NULL); return(0); } if (-1 == (fd = open(startdir, O_RDONLY, 0))) { exitcode = (int)MANDOCLEVEL_SYSERR; say(startdir, NULL); return(0); } if (NULL == targetdir) targetdir = startdir; } else { if (-1 == fd) return(0); if (-1 == fchdir(fd)) { close(fd); basedir[0] = '\0'; exitcode = (int)MANDOCLEVEL_SYSERR; say(startdir, NULL); return(0); } if (NULL == targetdir) { close(fd); return(1); } } if (NULL == realpath(targetdir, basedir)) { basedir[0] = '\0'; exitcode = (int)MANDOCLEVEL_BADARG; say(targetdir, NULL); return(0); } else if (-1 == chdir(basedir)) { exitcode = (int)MANDOCLEVEL_BADARG; say("", NULL); return(0); } return(1); } static void say(const char *file, const char *format, ...) { va_list ap; if ('\0' != *basedir) fprintf(stderr, "%s", basedir); if ('\0' != *basedir && '\0' != *file) fputs("//", stderr); if ('\0' != *file) fprintf(stderr, "%s", file); fputs(": ", stderr); if (NULL == format) { perror(NULL); return; } va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); fputc('\n', stderr); }