/* $Id$ */ /* * Copyright (c) 2011, 2012 Kristaps Dzonsons * Copyright (c) 2011-2016 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 AUTHORS DISCLAIM ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS 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. */ #include "config.h" #include #include #include #include #include #if HAVE_ERR #include #endif #include #include #if HAVE_FTS #include #else #include "compat_fts.h" #endif #include #if HAVE_SANDBOX_INIT #include #endif #include #include #include #include #include #include #include #include "mandoc_aux.h" #include "mandoc_ohash.h" #include "mandoc.h" #include "roff.h" #include "mdoc.h" #include "man.h" #include "manconf.h" #include "mansearch.h" #include "dba_array.h" #include "dba.h" extern const char *const mansearch_keynames[]; 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 */ }; struct str { const struct mpage *mpage; /* if set, the owning parse */ uint64_t mask; /* bitmask in sequence */ char key[]; /* rendered text */ }; struct inodev { ino_t st_ino; dev_t st_dev; }; struct mpage { struct inodev inodev; /* used for hashing routine */ struct dba_array *dba; char *sec; /* section from file content */ char *arch; /* architecture from file content */ char *title; /* title from file content */ char *desc; /* description from file content */ struct mlink *mlinks; /* singly linked list */ int name_head_done; enum form form; /* format from file content */ }; struct mlink { char file[PATH_MAX]; /* filename rel. to manpath */ char *dsec; /* section from directory */ char *arch; /* architecture from directory */ char *name; /* name from file name (not empty) */ char *fsec; /* section from file name suffix */ struct mlink *next; /* singly linked list */ struct mpage *mpage; /* parent */ int gzip; /* filename has a .gz suffix */ enum form dform; /* format from directory */ enum form fform; /* format from file name suffix */ }; typedef int (*mdoc_fp)(struct mpage *, const struct roff_meta *, const struct roff_node *); struct mdoc_handler { mdoc_fp fp; /* optional handler */ uint64_t mask; /* set unless handler returns 0 */ }; int mandocdb(int, char *[]); static void dbadd(struct dba *, struct mpage *); static void dbadd_mlink(const struct mlink *mlink); static void dbprune(struct dba *); static void dbwrite(struct dba *); static void filescan(const char *); static void mlink_add(struct mlink *, const struct stat *); static void mlink_check(struct mpage *, struct mlink *); static void mlink_free(struct mlink *); static void mlinks_undupe(struct mpage *); int mpages_compare(const void *, const void *); static void mpages_free(void); static void mpages_merge(struct dba *, struct mparse *); static void parse_cat(struct mpage *, int); static void parse_man(struct mpage *, const struct roff_meta *, const struct roff_node *); static void parse_mdoc(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_head(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Fd(struct mpage *, const struct roff_meta *, const struct roff_node *); static void parse_mdoc_fname(struct mpage *, const struct roff_node *); static int parse_mdoc_Fn(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Fo(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Nd(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Nm(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Sh(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Va(struct mpage *, const struct roff_meta *, const struct roff_node *); static int parse_mdoc_Xr(struct mpage *, const struct roff_meta *, const struct roff_node *); static void putkey(const struct mpage *, char *, uint64_t); static void putkeys(const struct mpage *, char *, size_t, uint64_t); static void putmdockey(const struct mpage *, const struct roff_node *, uint64_t); static int render_string(char **, size_t *); static void say(const char *, const char *, ...) __attribute__((__format__ (printf, 2, 3))); static int set_basedir(const char *, int); static int treescan(void); static size_t utf8(unsigned int, char [7]); static int nodb; /* no database changes */ static int mparse_options; /* abort the parse early */ static int use_all; /* use all found files */ static int debug; /* print what we're doing */ static int warnings; /* warn about crap */ static int write_utf8; /* write UTF-8 output; else ASCII */ 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 mlinks; /* table of directory entries */ static struct ohash names; /* table of all names */ static struct ohash strings; /* table of all strings */ static uint64_t name_mask; 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 */ { NULL, TYPE_In }, /* In */ { NULL, TYPE_Li }, /* Li */ { parse_mdoc_Nd, 0 }, /* Nd */ { parse_mdoc_Nm, 0 }, /* Nm */ { NULL, 0 }, /* Op */ { NULL, 0 }, /* Ot */ { NULL, TYPE_Pa }, /* Pa */ { NULL, 0 }, /* Rv */ { NULL, TYPE_St }, /* St */ { parse_mdoc_Va, TYPE_Va }, /* Va */ { parse_mdoc_Va, TYPE_Vt }, /* 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_Fo, 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 */ { NULL, 0 }, /* ll */ }; int mandocdb(int argc, char *argv[]) { struct manconf conf; struct mparse *mp; struct dba *dba; const char *path_arg, *progname; size_t j, sz; int ch, i; #if HAVE_PLEDGE if (pledge("stdio rpath wpath cpath fattr flock proc exec", NULL) == -1) { warn("pledge"); return (int)MANDOCLEVEL_SYSERR; } #endif #if HAVE_SANDBOX_INIT if (sandbox_init(kSBXProfileNoInternet, SANDBOX_NAMED, NULL) == -1) { warnx("sandbox_init"); return (int)MANDOCLEVEL_SYSERR; } #endif memset(&conf, 0, sizeof(conf)); /* * 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)) { \ warnx("-%c: Conflicting option", (_ch)); \ goto usage; \ } while (/*CONSTCOND*/0) path_arg = NULL; op = OP_DEFAULT; while (-1 != (ch = getopt(argc, argv, "aC:Dd:npQT:tu:v"))) switch (ch) { case 'a': use_all = 1; break; case 'C': CHECKOP(op, ch); path_arg = optarg; op = OP_CONFFILE; break; case 'D': debug++; break; case 'd': CHECKOP(op, ch); path_arg = optarg; op = OP_UPDATE; break; case 'n': nodb = 1; break; case 'p': warnings = 1; break; case 'Q': mparse_options |= MPARSE_QUICK; break; case 'T': if (strcmp(optarg, "utf8")) { warnx("-T%s: Unsupported output format", optarg); goto usage; } write_utf8 = 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': /* Compatibility with espie@'s makewhatis. */ break; default: goto usage; } argc -= optind; argv += optind; #if HAVE_PLEDGE if (nodb) { if (pledge("stdio rpath", NULL) == -1) { warn("pledge"); return (int)MANDOCLEVEL_SYSERR; } } #endif if (OP_CONFFILE == op && argc > 0) { warnx("-C: Too many arguments"); goto usage; } exitcode = (int)MANDOCLEVEL_OK; mchars_alloc(); mp = mparse_alloc(mparse_options, MANDOCLEVEL_BADARG, NULL, NULL); mandoc_ohash_init(&mpages, 6, offsetof(struct mpage, inodev)); mandoc_ohash_init(&mlinks, 6, offsetof(struct mlink, file)); if (OP_UPDATE == op || OP_DELETE == op || OP_TEST == op) { /* * Most of these deal with a specific directory. * Jump into that directory first. */ if (OP_TEST != op && 0 == set_basedir(path_arg, 1)) goto out; dba = nodb ? dba_new(128) : dba_read(MANDOC_DB); if (dba != NULL) { /* * The existing database is usable. Process * all files specified on the command-line. */ #if HAVE_PLEDGE if (!nodb) { if (pledge("stdio rpath wpath cpath fattr flock", NULL) == -1) { warn("pledge"); exitcode = (int)MANDOCLEVEL_SYSERR; goto out; } } #endif use_all = 1; for (i = 0; i < argc; i++) filescan(argv[i]); if (nodb == 0) dbprune(dba); } else { /* * Database missing or corrupt. * Recreate from scratch. */ exitcode = (int)MANDOCLEVEL_OK; op = OP_DEFAULT; if (0 == treescan()) goto out; dba = dba_new(128); } if (OP_DELETE != op) mpages_merge(dba, mp); if (nodb == 0) dbwrite(dba); dba_free(dba); } else { /* * If we have arguments, use them as our manpaths. * If we don't, use man.conf(5). */ if (argc > 0) { conf.manpath.paths = mandoc_reallocarray(NULL, argc, sizeof(char *)); conf.manpath.sz = (size_t)argc; for (i = 0; i < argc; i++) conf.manpath.paths[i] = mandoc_strdup(argv[i]); } else manconf_parse(&conf, path_arg, NULL, NULL); if (conf.manpath.sz == 0) { exitcode = (int)MANDOCLEVEL_BADARG; say("", "Empty manpath"); } /* * 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 < conf.manpath.sz; j++) { sz = strlen(conf.manpath.paths[j]); if (sz && conf.manpath.paths[j][sz - 1] == '/') conf.manpath.paths[j][--sz] = '\0'; if (0 == sz) continue; if (j) { mandoc_ohash_init(&mpages, 6, offsetof(struct mpage, inodev)); mandoc_ohash_init(&mlinks, 6, offsetof(struct mlink, file)); } if ( ! set_basedir(conf.manpath.paths[j], argc > 0)) continue; if (0 == treescan()) continue; dba = dba_new(128); mpages_merge(dba, mp); if (nodb == 0) dbwrite(dba); dba_free(dba); if (j + 1 < conf.manpath.sz) { mpages_free(); ohash_delete(&mpages); ohash_delete(&mlinks); } } } out: manconf_free(&conf); mparse_free(mp); mchars_free(); mpages_free(); ohash_delete(&mpages); ohash_delete(&mlinks); return exitcode; usage: progname = getprogname(); fprintf(stderr, "usage: %s [-aDnpQ] [-C file] [-Tutf8]\n" " %s [-aDnpQ] [-Tutf8] dir ...\n" " %s [-DnpQ] [-Tutf8] -d dir [file ...]\n" " %s [-Dnp] -u dir [file ...]\n" " %s [-Q] -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: accommodate for multi-language directories. */ static int treescan(void) { char buf[PATH_MAX]; FTS *f; FTSENT *ff; struct mlink *mlink; int gzip; enum form dform; char *dsec, *arch, *fsec, *cp; const char *path; const char *argv[2]; argv[0] = "."; argv[1] = (char *)NULL; f = fts_open((char * const *)argv, FTS_PHYSICAL | FTS_NOCHDIR, NULL); if (f == NULL) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&fts_open"); return 0; } dsec = arch = NULL; dform = FORM_NONE; while ((ff = fts_read(f)) != NULL) { path = ff->fts_path + 2; switch (ff->fts_info) { /* * Symbolic links require various sanity checks, * then get handled just like regular files. */ case FTS_SL: if (realpath(path, buf) == NULL) { if (warnings) say(path, "&realpath"); continue; } if (strstr(buf, basedir) != buf #ifdef HOMEBREWDIR && strstr(buf, HOMEBREWDIR) != buf #endif ) { if (warnings) say("", "%s: outside base directory", buf); continue; } /* Use logical inode to avoid mpages dupe. */ if (stat(path, ff->fts_statp) == -1) { if (warnings) say(path, "&stat"); continue; } /* FALLTHROUGH */ /* * If we're a regular file, add an mlink by using the * stored directory data and handling the filename. */ case FTS_F: if ( ! strcmp(path, MANDOC_DB)) continue; if ( ! use_all && ff->fts_level < 2) { if (warnings) say(path, "Extraneous file"); continue; } gzip = 0; fsec = NULL; while (fsec == NULL) { fsec = strrchr(ff->fts_name, '.'); if (fsec == NULL || strcmp(fsec+1, "gz")) break; gzip = 1; *fsec = '\0'; fsec = NULL; } if (fsec == NULL) { if ( ! use_all) { if (warnings) say(path, "No filename suffix"); continue; } } else if ( ! strcmp(++fsec, "html")) { if (warnings) say(path, "Skip html"); continue; } else if ( ! strcmp(fsec, "ps")) { if (warnings) say(path, "Skip ps"); continue; } else if ( ! strcmp(fsec, "pdf")) { if (warnings) say(path, "Skip pdf"); continue; } else if ( ! use_all && ((dform == FORM_SRC && strncmp(fsec, dsec, strlen(dsec))) || (dform == FORM_CAT && strcmp(fsec, "0")))) { if (warnings) say(path, "Wrong filename suffix"); continue; } else fsec[-1] = '\0'; mlink = mandoc_calloc(1, sizeof(struct mlink)); if (strlcpy(mlink->file, path, sizeof(mlink->file)) >= sizeof(mlink->file)) { say(path, "Filename too long"); free(mlink); continue; } mlink->dform = dform; mlink->dsec = dsec; mlink->arch = arch; mlink->name = ff->fts_name; mlink->fsec = fsec; mlink->gzip = gzip; mlink_add(mlink, ff->fts_statp); continue; case FTS_D: case FTS_DP: break; default: 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. */ cp = ff->fts_name; if (ff->fts_info == FTS_DP) { dform = FORM_NONE; dsec = NULL; break; } if ( ! strncmp(cp, "man", 3)) { dform = FORM_SRC; dsec = cp + 3; } else if ( ! strncmp(cp, "cat", 3)) { dform = FORM_CAT; dsec = cp + 3; } else { dform = FORM_NONE; dsec = NULL; } if (dsec != NULL || 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. */ if (ff->fts_info != FTS_DP && dsec != NULL) arch = ff->fts_name; else arch = NULL; break; default: if (ff->fts_info == FTS_DP || 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 mlinks table. * 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 * * See treescan() for the fts(3) version of this. */ static void filescan(const char *file) { char buf[PATH_MAX]; struct stat st; struct mlink *mlink; char *p, *start; assert(use_all); if (0 == strncmp(file, "./", 2)) file += 2; /* * We have to do lstat(2) before realpath(3) loses * the information whether this is a symbolic link. * We need to know that because for symbolic links, * we want to use the orginal file name, while for * regular files, we want to use the real path. */ if (-1 == lstat(file, &st)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, "&lstat"); return; } else if (0 == ((S_IFREG | S_IFLNK) & st.st_mode)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, "Not a regular file"); return; } /* * We have to resolve the file name to the real path * in any case for the base directory check. */ if (NULL == realpath(file, buf)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, "&realpath"); return; } if (OP_TEST == op) start = buf; else if (strstr(buf, basedir) == buf) start = buf + strlen(basedir); #ifdef HOMEBREWDIR else if (strstr(buf, HOMEBREWDIR) == buf) start = buf; #endif else { exitcode = (int)MANDOCLEVEL_BADARG; say("", "%s: outside base directory", buf); return; } /* * Now we are sure the file is inside our tree. * If it is a symbolic link, ignore the real path * and use the original name. * This implies passing stuff like "cat1/../man1/foo.1" * on the command line won't work. So don't do that. * Note the stat(2) can still fail if the link target * doesn't exist. */ if (S_IFLNK & st.st_mode) { if (-1 == stat(buf, &st)) { exitcode = (int)MANDOCLEVEL_BADARG; say(file, "&stat"); return; } if (strlcpy(buf, file, sizeof(buf)) >= sizeof(buf)) { say(file, "Filename too long"); return; } start = buf; if (OP_TEST != op && strstr(buf, basedir) == buf) start += strlen(basedir); } mlink = mandoc_calloc(1, sizeof(struct mlink)); mlink->dform = FORM_NONE; if (strlcpy(mlink->file, start, sizeof(mlink->file)) >= sizeof(mlink->file)) { say(start, "Filename too long"); free(mlink); return; } /* * 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)) { mlink->dform = FORM_SRC; mlink->dsec = start + 3; } else if (0 == strncmp(start, "cat", 3)) { mlink->dform = FORM_CAT; mlink->dsec = start + 3; } start = p; if (NULL != mlink->dsec && NULL != (p = strchr(start, '/'))) { *p++ = '\0'; mlink->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'; mlink->fsec = p; } /* * Now try to parse the name. * Use the filename portion of the path. */ mlink->name = start; if (NULL != (p = strrchr(start, '/'))) { mlink->name = p + 1; *p = '\0'; } mlink_add(mlink, &st); } static void mlink_add(struct mlink *mlink, const struct stat *st) { struct inodev inodev; struct mpage *mpage; unsigned int slot; assert(NULL != mlink->file); mlink->dsec = mandoc_strdup(mlink->dsec ? mlink->dsec : ""); mlink->arch = mandoc_strdup(mlink->arch ? mlink->arch : ""); mlink->name = mandoc_strdup(mlink->name ? mlink->name : ""); mlink->fsec = mandoc_strdup(mlink->fsec ? mlink->fsec : ""); if ('0' == *mlink->fsec) { free(mlink->fsec); mlink->fsec = mandoc_strdup(mlink->dsec); mlink->fform = FORM_CAT; } else if ('1' <= *mlink->fsec && '9' >= *mlink->fsec) mlink->fform = FORM_SRC; else mlink->fform = FORM_NONE; slot = ohash_qlookup(&mlinks, mlink->file); assert(NULL == ohash_find(&mlinks, slot)); ohash_insert(&mlinks, slot, mlink); memset(&inodev, 0, sizeof(inodev)); /* Clear padding. */ inodev.st_ino = st->st_ino; inodev.st_dev = st->st_dev; slot = ohash_lookup_memory(&mpages, (char *)&inodev, sizeof(struct inodev), inodev.st_ino); mpage = ohash_find(&mpages, slot); if (NULL == mpage) { mpage = mandoc_calloc(1, sizeof(struct mpage)); mpage->inodev.st_ino = inodev.st_ino; mpage->inodev.st_dev = inodev.st_dev; mpage->form = FORM_NONE; ohash_insert(&mpages, slot, mpage); } else mlink->next = mpage->mlinks; mpage->mlinks = mlink; mlink->mpage = mpage; } static void mlink_free(struct mlink *mlink) { free(mlink->dsec); free(mlink->arch); free(mlink->name); free(mlink->fsec); free(mlink); } static void mpages_free(void) { struct mpage *mpage; struct mlink *mlink; unsigned int slot; mpage = ohash_first(&mpages, &slot); while (NULL != mpage) { while (NULL != (mlink = mpage->mlinks)) { mpage->mlinks = mlink->next; mlink_free(mlink); } free(mpage->sec); free(mpage->arch); free(mpage->title); free(mpage->desc); free(mpage); mpage = ohash_next(&mpages, &slot); } } /* * For each mlink to the mpage, check whether the path looks like * it is formatted, and if it does, check whether a source manual * exists by the same name, ignoring the suffix. * If both conditions hold, drop the mlink. */ static void mlinks_undupe(struct mpage *mpage) { char buf[PATH_MAX]; struct mlink **prev; struct mlink *mlink; char *bufp; mpage->form = FORM_CAT; prev = &mpage->mlinks; while (NULL != (mlink = *prev)) { if (FORM_CAT != mlink->dform) { mpage->form = FORM_NONE; goto nextlink; } (void)strlcpy(buf, mlink->file, sizeof(buf)); bufp = strstr(buf, "cat"); assert(NULL != bufp); memcpy(bufp, "man", 3); if (NULL != (bufp = strrchr(buf, '.'))) *++bufp = '\0'; (void)strlcat(buf, mlink->dsec, sizeof(buf)); if (NULL == ohash_find(&mlinks, ohash_qlookup(&mlinks, buf))) goto nextlink; if (warnings) say(mlink->file, "Man source exists: %s", buf); if (use_all) goto nextlink; *prev = mlink->next; mlink_free(mlink); continue; nextlink: prev = &(*prev)->next; } } static void mlink_check(struct mpage *mpage, struct mlink *mlink) { struct str *str; unsigned int slot; /* * 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). */ if (FORM_SRC == mpage->form && strcasecmp(mpage->sec, mlink->dsec)) say(mlink->file, "Section \"%s\" manual in %s directory", mpage->sec, mlink->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. */ if (strcasecmp(mpage->arch, mlink->arch)) say(mlink->file, "Architecture \"%s\" manual in " "\"%s\" directory", mpage->arch, mlink->arch); /* * XXX * parse_cat() doesn't set NAME_TITLE yet. */ if (FORM_CAT == mpage->form) return; /* * Check whether this mlink * appears as a name in the NAME section. */ slot = ohash_qlookup(&names, mlink->name); str = ohash_find(&names, slot); assert(NULL != str); if ( ! (NAME_TITLE & str->mask)) say(mlink->file, "Name missing in NAME section"); } /* * Run through the files in the global vector "mpages" * 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 dba *dba, struct mparse *mp) { struct mpage **mplist, *mpage, *mpage_dest; struct mlink *mlink, *mlink_dest; struct roff_man *man; char *sodest; char *cp; int fd; unsigned int ip, npages, pslot; npages = ohash_entries(&mpages); mplist = mandoc_reallocarray(NULL, npages, sizeof(*mplist)); ip = 0; mpage = ohash_first(&mpages, &pslot); while (mpage != NULL) { mlinks_undupe(mpage); if (mpage->mlinks != NULL) mplist[ip++] = mpage; mpage = ohash_next(&mpages, &pslot); } npages = ip; qsort(mplist, npages, sizeof(*mplist), mpages_compare); for (ip = 0; ip < npages; ip++) { mpage = mplist[ip]; mlink = mpage->mlinks; name_mask = NAME_MASK; mandoc_ohash_init(&names, 4, offsetof(struct str, key)); mandoc_ohash_init(&strings, 6, offsetof(struct str, key)); mparse_reset(mp); man = NULL; sodest = NULL; if ((fd = mparse_open(mp, mlink->file)) == -1) { say(mlink->file, "&open"); goto nextpage; } /* * Interpret the file as mdoc(7) or man(7) source * code, unless it is known to be formatted. */ if (mlink->dform != FORM_CAT || mlink->fform != FORM_CAT) { mparse_readfd(mp, fd, mlink->file); close(fd); mparse_result(mp, &man, &sodest); } if (sodest != NULL) { mlink_dest = ohash_find(&mlinks, ohash_qlookup(&mlinks, sodest)); if (mlink_dest == NULL) { mandoc_asprintf(&cp, "%s.gz", sodest); mlink_dest = ohash_find(&mlinks, ohash_qlookup(&mlinks, cp)); free(cp); } if (mlink_dest != NULL) { /* The .so target exists. */ mpage_dest = mlink_dest->mpage; while (1) { mlink->mpage = mpage_dest; /* * If the target was already * processed, add the links * to the database now. * Otherwise, this will * happen when we come * to the target. */ if (mpage_dest->dba != NULL) dbadd_mlink(mlink); if (mlink->next == NULL) break; mlink = mlink->next; } /* Move all links to the target. */ mlink->next = mlink_dest->next; mlink_dest->next = mpage->mlinks; mpage->mlinks = NULL; } goto nextpage; } else if (man != NULL && man->macroset == MACROSET_MDOC) { mdoc_validate(man); mpage->form = FORM_SRC; mpage->sec = man->meta.msec; mpage->sec = mandoc_strdup( mpage->sec == NULL ? "" : mpage->sec); mpage->arch = man->meta.arch; mpage->arch = mandoc_strdup( mpage->arch == NULL ? "" : mpage->arch); mpage->title = mandoc_strdup(man->meta.title); } else if (man != NULL && man->macroset == MACROSET_MAN) { man_validate(man); mpage->form = FORM_SRC; mpage->sec = mandoc_strdup(man->meta.msec); mpage->arch = mandoc_strdup(mlink->arch); mpage->title = mandoc_strdup(man->meta.title); } else { mpage->form = FORM_CAT; mpage->sec = mandoc_strdup(mlink->dsec); mpage->arch = mandoc_strdup(mlink->arch); mpage->title = mandoc_strdup(mlink->name); } assert(mpage->desc == NULL); if (man != NULL && man->macroset == MACROSET_MDOC) parse_mdoc(mpage, &man->meta, man->first); else if (man != NULL) parse_man(mpage, &man->meta, man->first); else parse_cat(mpage, fd); if (mpage->desc == NULL) mpage->desc = mandoc_strdup(mpage->mlinks->name); if (warnings && !use_all) for (mlink = mpage->mlinks; mlink; mlink = mlink->next) mlink_check(mpage, mlink); dbadd(dba, mpage); mlink = mpage->mlinks; nextpage: ohash_delete(&strings); ohash_delete(&names); } free(mplist); } int mpages_compare(const void *vp1, const void *vp2) { const struct mpage *mp1, *mp2; mp1 = *(const struct mpage **)vp1; mp2 = *(const struct mpage **)vp2; return strcmp(mp1->mlinks->file, mp2->mlinks->file); } static void parse_cat(struct mpage *mpage, int fd) { FILE *stream; char *line, *p, *title; size_t linesz, plen, titlesz; ssize_t len; int offs; stream = (-1 == fd) ? fopen(mpage->mlinks->file, "r") : fdopen(fd, "r"); if (NULL == stream) { if (-1 != fd) close(fd); if (warnings) say(mpage->mlinks->file, "&fopen"); return; } line = NULL; linesz = 0; /* Skip to first blank line. */ while (getline(&line, &linesz, stream) != -1) if (*line == '\n') break; /* * Assume the first line that is not indented * is the first section header. Skip to it. */ while (getline(&line, &linesz, stream) != -1) if (*line != '\n' && *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 ((len = getline(&line, &linesz, stream)) != -1) { if (*line != ' ') break; offs = 0; while (isspace((unsigned char)line[offs])) offs++; if (line[offs] == '\0') continue; title = mandoc_realloc(title, titlesz + len - offs); memcpy(title + titlesz, line + offs, len - offs); titlesz += len - offs; title[titlesz - 1] = ' '; } free(line); /* * 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->mlinks->file, "Cannot find NAME section"); fclose(stream); free(title); return; } title[titlesz - 1] = '\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->mlinks->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; } mpage->desc = mandoc_strdup(p); fclose(stream); free(title); } /* * Put a type/word pair into the word database for this particular file. */ static void putkey(const struct mpage *mpage, char *value, uint64_t type) { 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 roff_node *n, uint64_t m) { for ( ; NULL != n; n = n->next) { if (NULL != n->child) putmdockey(mpage, n->child, m); if (n->type == ROFFT_TEXT) putkey(mpage, n->string, m); } } static void parse_man(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { const struct roff_node *head, *body; char *start, *title; char byte; size_t sz; if (n == NULL) 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 (n->type == ROFFT_BODY && n->tok == MAN_SH) { body = n; if ((head = body->parent->head) != NULL && (head = head->child) != NULL && head->next == NULL && head->type == ROFFT_TEXT && strcmp(head->string, "NAME") == 0 && body->child != NULL) { /* * 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. */ title = NULL; deroff(&title, body); if (NULL == title) return; /* * 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. */ start = title; for ( ;; ) { sz = strcspn(start, " ,"); if ('\0' == start[sz]) break; byte = start[sz]; start[sz] = '\0'; /* * Assume a stray trailing comma in the * name list if a name begins with a dash. */ if ('-' == start[0] || ('\\' == start[0] && '-' == start[1])) break; putkey(mpage, start, NAME_TITLE); if ( ! (mpage->name_head_done || strcasecmp(start, meta->title))) { putkey(mpage, start, NAME_HEAD); mpage->name_head_done = 1; } if (' ' == byte) { start += sz + 1; break; } assert(',' == byte); start += sz + 1; while (' ' == *start) start++; } if (start == title) { putkey(mpage, start, NAME_TITLE); if ( ! (mpage->name_head_done || strcasecmp(start, meta->title))) { putkey(mpage, start, NAME_HEAD); mpage->name_head_done = 1; } 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++; mpage->desc = mandoc_strdup(start); free(title); return; } } for (n = n->child; n; n = n->next) { if (NULL != mpage->desc) break; parse_man(mpage, meta, n); } } static void parse_mdoc(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { assert(NULL != n); for (n = n->child; NULL != n; n = n->next) { switch (n->type) { case ROFFT_ELEM: case ROFFT_BLOCK: case ROFFT_HEAD: case ROFFT_BODY: case ROFFT_TAIL: if (NULL != mdocs[n->tok].fp) if (0 == (*mdocs[n->tok].fp)(mpage, meta, n)) break; if (mdocs[n->tok].mask) putmdockey(mpage, n->child, mdocs[n->tok].mask); break; default: assert(n->type != ROFFT_ROOT); continue; } if (NULL != n->child) parse_mdoc(mpage, meta, n); } } static int parse_mdoc_Fd(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { char *start, *end; size_t sz; if (SEC_SYNOPSIS != n->sec || NULL == (n = n->child) || n->type != ROFFT_TEXT) 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 ((n = n->next) == NULL || n->type != ROFFT_TEXT) 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 0; } static void parse_mdoc_fname(struct mpage *mpage, const struct roff_node *n) { char *cp; size_t sz; if (n->type != ROFFT_TEXT) return; /* Skip function pointer punctuation. */ cp = n->string; while (*cp == '(' || *cp == '*') cp++; sz = strcspn(cp, "()"); putkeys(mpage, cp, sz, TYPE_Fn); if (n->sec == SEC_SYNOPSIS) putkeys(mpage, cp, sz, NAME_SYN); } static int parse_mdoc_Fn(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { if (n->child == NULL) return 0; parse_mdoc_fname(mpage, n->child); for (n = n->child->next; n != NULL; n = n->next) if (n->type == ROFFT_TEXT) putkey(mpage, n->string, TYPE_Fa); return 0; } static int parse_mdoc_Fo(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { if (n->type != ROFFT_HEAD) return 1; if (n->child != NULL) parse_mdoc_fname(mpage, n->child); return 0; } static int parse_mdoc_Va(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { char *cp; if (n->type != ROFFT_ELEM && n->type != ROFFT_BODY) return 0; if (n->child != NULL && n->child->next == NULL && n->child->type == ROFFT_TEXT) return 1; cp = NULL; deroff(&cp, n); if (cp != NULL) { putkey(mpage, cp, TYPE_Vt | (n->tok == MDOC_Va || n->type == ROFFT_BODY ? TYPE_Va : 0)); free(cp); } return 0; } static int parse_mdoc_Xr(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { char *cp; if (NULL == (n = n->child)) return 0; if (NULL == n->next) { putkey(mpage, n->string, TYPE_Xr); return 0; } mandoc_asprintf(&cp, "%s(%s)", n->string, n->next->string); putkey(mpage, cp, TYPE_Xr); free(cp); return 0; } static int parse_mdoc_Nd(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { if (n->type == ROFFT_BODY) deroff(&mpage->desc, n); return 0; } static int parse_mdoc_Nm(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { if (SEC_NAME == n->sec) putmdockey(mpage, n->child, NAME_TITLE); else if (n->sec == SEC_SYNOPSIS && n->type == ROFFT_HEAD) { if (n->child == NULL) putkey(mpage, meta->name, NAME_SYN); else putmdockey(mpage, n->child, NAME_SYN); } if ( ! (mpage->name_head_done || n->child == NULL || n->child->string == NULL || strcasecmp(n->child->string, meta->title))) { putkey(mpage, n->child->string, ROFFT_HEAD); mpage->name_head_done = 1; } return 0; } static int parse_mdoc_Sh(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { return n->sec == SEC_CUSTOM && n->type == ROFFT_HEAD; } static int parse_mdoc_head(struct mpage *mpage, const struct roff_meta *meta, const struct roff_node *n) { return n->type == ROFFT_HEAD; } /* * 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, char *cp, size_t sz, uint64_t v) { struct ohash *htab; struct str *s; const char *end; unsigned int slot; int i, mustfree; if (0 == sz) return; mustfree = render_string(&cp, &sz); if (TYPE_Nm & v) { htab = &names; v &= name_mask; if (v & NAME_FIRST) name_mask &= ~NAME_FIRST; if (debug > 1) say(mpage->mlinks->file, "Adding name %*s, bits=0x%llu", (int)sz, cp, v); } else { htab = &strings; if (debug > 1) for (i = 0; i < KEY_MAX; i++) if ((uint64_t)1 << i & v) say(mpage->mlinks->file, "Adding key %s=%*s", mansearch_keynames[i], (int)sz, cp); } end = cp + sz; slot = ohash_qlookupi(htab, cp, &end); s = ohash_find(htab, slot); if (NULL != s && mpage == s->mpage) { s->mask |= v; return; } else if (NULL == s) { s = mandoc_calloc(1, sizeof(struct str) + sz + 1); memcpy(s->key, cp, sz); ohash_insert(htab, slot, s); } s->mpage = mpage; s->mask = v; if (mustfree) free(cp); } /* * 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; } /* * If the string contains escape sequences, * replace it with an allocated rendering and return 1, * such that the caller can free it after use. * Otherwise, do nothing and return 0. */ static int render_string(char **public, size_t *psz) { const char *src, *scp, *addcp, *seq; char *dst; size_t ssz, dsz, addsz; char utfbuf[7], res[6]; int seqlen, unicode; res[0] = '\\'; res[1] = '\t'; res[2] = ASCII_NBRSP; res[3] = ASCII_HYPH; res[4] = ASCII_BREAK; res[5] = '\0'; src = scp = *public; ssz = *psz; dst = NULL; dsz = 0; while (scp < src + *psz) { /* Leave normal characters unchanged. */ if (strchr(res, *scp) == NULL) { if (dst != NULL) dst[dsz++] = *scp; scp++; continue; } /* * Found something that requires replacing, * make sure we have a destination buffer. */ if (dst == NULL) { dst = mandoc_malloc(ssz + 1); dsz = scp - src; memcpy(dst, src, dsz); } /* Handle single-char special characters. */ switch (*scp) { case '\\': break; case '\t': case ASCII_NBRSP: dst[dsz++] = ' '; scp++; continue; case ASCII_HYPH: dst[dsz++] = '-'; /* FALLTHROUGH */ case ASCII_BREAK: scp++; continue; default: abort(); } /* * Found an escape sequence. * Read past the slash, then parse it. * Ignore everything except characters. */ scp++; if (mandoc_escape(&scp, &seq, &seqlen) != ESCAPE_SPECIAL) continue; /* * Render the special character * as either UTF-8 or ASCII. */ if (write_utf8) { unicode = mchars_spec2cp(seq, seqlen); if (unicode <= 0) continue; addsz = utf8(unicode, utfbuf); if (addsz == 0) continue; addcp = utfbuf; } else { addcp = mchars_spec2str(seq, seqlen, &addsz); if (addcp == NULL) continue; if (*addcp == ASCII_NBRSP) { addcp = " "; addsz = 1; } } /* Copy the rendered glyph into the stream. */ ssz += addsz; dst = mandoc_realloc(dst, ssz + 1); memcpy(dst + dsz, addcp, addsz); dsz += addsz; } if (dst != NULL) { *public = dst; *psz = dsz; } /* Trim trailing whitespace and NUL-terminate. */ while (*psz > 0 && (*public)[*psz - 1] == ' ') --*psz; if (dst != NULL) { (*public)[*psz] = '\0'; return 1; } else return 0; } static void dbadd_mlink(const struct mlink *mlink) { dba_page_alias(mlink->mpage->dba, mlink->name, NAME_FILE); dba_page_add(mlink->mpage->dba, DBP_SECT, mlink->dsec); dba_page_add(mlink->mpage->dba, DBP_SECT, mlink->fsec); dba_page_add(mlink->mpage->dba, DBP_ARCH, mlink->arch); dba_page_add(mlink->mpage->dba, DBP_FILE, mlink->file); } /* * Flush the current page's terms (and their bits) into the database. * Also, handle escape sequences at the last possible moment. */ static void dbadd(struct dba *dba, struct mpage *mpage) { struct mlink *mlink; struct str *key; char *cp; uint64_t mask; size_t i; unsigned int slot; int mustfree; mlink = mpage->mlinks; if (nodb) { for (key = ohash_first(&names, &slot); NULL != key; key = ohash_next(&names, &slot)) free(key); for (key = ohash_first(&strings, &slot); NULL != key; key = ohash_next(&strings, &slot)) free(key); if (0 == debug) return; while (NULL != mlink) { fputs(mlink->name, stdout); if (NULL == mlink->next || strcmp(mlink->dsec, mlink->next->dsec) || strcmp(mlink->fsec, mlink->next->fsec) || strcmp(mlink->arch, mlink->next->arch)) { putchar('('); if ('\0' == *mlink->dsec) fputs(mlink->fsec, stdout); else fputs(mlink->dsec, stdout); if ('\0' != *mlink->arch) printf("/%s", mlink->arch); putchar(')'); } mlink = mlink->next; if (NULL != mlink) fputs(", ", stdout); } printf(" - %s\n", mpage->desc); return; } if (debug) say(mlink->file, "Adding to database"); cp = mpage->desc; i = strlen(cp); mustfree = render_string(&cp, &i); mpage->dba = dba_page_new(dba->pages, mlink->name, mpage->sec, *mpage->arch == '\0' ? mlink->arch : mpage->arch, cp, mlink->file, mpage->form); if (mustfree) free(cp); while (mlink != NULL) { dbadd_mlink(mlink); mlink = mlink->next; } for (key = ohash_first(&names, &slot); NULL != key; key = ohash_next(&names, &slot)) { assert(key->mpage == mpage); dba_page_alias(mpage->dba, key->key, key->mask); free(key); } for (key = ohash_first(&strings, &slot); NULL != key; key = ohash_next(&strings, &slot)) { assert(key->mpage == mpage); i = 0; for (mask = TYPE_Xr; mask <= TYPE_Lb; mask *= 2) { if (key->mask & mask) dba_macro_add(dba->macros, i, key->key, mpage->dba); i++; } free(key); } } static void dbprune(struct dba *dba) { struct dba_array *page, *files; char *file; dba_array_FOREACH(dba->pages, page) { files = dba_array_get(page, DBP_FILE); dba_array_FOREACH(files, file) { if (*file < ' ') file++; if (ohash_find(&mlinks, ohash_qlookup(&mlinks, file)) != NULL) { if (debug) say(file, "Deleting from database"); dba_array_del(dba->pages); break; } } } } /* * Write the database from memory to disk. */ static void dbwrite(struct dba *dba) { char tfn[32]; int status; pid_t child; if (dba_write(MANDOC_DB "~", dba) != -1) { if (rename(MANDOC_DB "~", MANDOC_DB) == -1) { exitcode = (int)MANDOCLEVEL_SYSERR; say(MANDOC_DB, "&rename"); unlink(MANDOC_DB "~"); } return; } (void)strlcpy(tfn, "/tmp/mandocdb.XXXXXXXX", sizeof(tfn)); if (mkdtemp(tfn) == NULL) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&%s", tfn); return; } (void)strlcat(tfn, "/" MANDOC_DB, sizeof(tfn)); if (dba_write(tfn, dba) == -1) { exitcode = (int)MANDOCLEVEL_SYSERR; say(tfn, "&dba_write"); goto out; } switch (child = fork()) { case -1: exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&fork cmp"); return; case 0: execlp("cmp", "cmp", "-s", tfn, MANDOC_DB, (char *)NULL); say("", "&exec cmp"); exit(0); default: break; } if (waitpid(child, &status, 0) == -1) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&wait cmp"); } else if (WIFSIGNALED(status)) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "cmp died from signal %d", WTERMSIG(status)); } else if (WEXITSTATUS(status)) { exitcode = (int)MANDOCLEVEL_SYSERR; say(MANDOC_DB, "Data changed, but cannot replace database"); } out: *strrchr(tfn, '/') = '\0'; switch (child = fork()) { case -1: exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&fork rm"); return; case 0: execlp("rm", "rm", "-rf", tfn, (char *)NULL); say("", "&exec rm"); exit((int)MANDOCLEVEL_SYSERR); default: break; } if (waitpid(child, &status, 0) == -1) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&wait rm"); } else if (WIFSIGNALED(status) || WEXITSTATUS(status)) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "%s: Cannot remove temporary directory", tfn); } } static int set_basedir(const char *targetdir, int report_baddir) { static char startdir[PATH_MAX]; static int getcwd_status; /* 1 = ok, 2 = failure */ static int chdir_status; /* 1 = changed directory */ char *cp; /* * Remember the original working directory, if possible. * This will be needed if the second or a later directory * on the command line is given as a relative path. * Do not error out if the current directory is not * searchable: Maybe it won't be needed after all. */ if (0 == getcwd_status) { if (NULL == getcwd(startdir, sizeof(startdir))) { getcwd_status = 2; (void)strlcpy(startdir, strerror(errno), sizeof(startdir)); } else getcwd_status = 1; } /* * We are leaving the old base directory. * Do not use it any longer, not even for messages. */ *basedir = '\0'; /* * If and only if the directory was changed earlier and * the next directory to process is given as a relative path, * first go back, or bail out if that is impossible. */ if (chdir_status && '/' != *targetdir) { if (2 == getcwd_status) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "getcwd: %s", startdir); return 0; } if (-1 == chdir(startdir)) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "&chdir %s", startdir); return 0; } } /* * Always resolve basedir to the canonicalized absolute * pathname and append a trailing slash, such that * we can reliably check whether files are inside. */ if (NULL == realpath(targetdir, basedir)) { if (report_baddir || errno != ENOENT) { exitcode = (int)MANDOCLEVEL_BADARG; say("", "&%s: realpath", targetdir); } return 0; } else if (-1 == chdir(basedir)) { if (report_baddir || errno != ENOENT) { exitcode = (int)MANDOCLEVEL_BADARG; say("", "&chdir"); } return 0; } chdir_status = 1; cp = strchr(basedir, '\0'); if ('/' != cp[-1]) { if (cp - basedir >= PATH_MAX - 1) { exitcode = (int)MANDOCLEVEL_SYSERR; say("", "Filename too long"); return 0; } *cp++ = '/'; *cp = '\0'; } return 1; } static void say(const char *file, const char *format, ...) { va_list ap; int use_errno; if ('\0' != *basedir) fprintf(stderr, "%s", basedir); if ('\0' != *basedir && '\0' != *file) fputc('/', stderr); if ('\0' != *file) fprintf(stderr, "%s", file); use_errno = 1; if (NULL != format) { switch (*format) { case '&': format++; break; case '\0': format = NULL; break; default: use_errno = 0; break; } } if (NULL != format) { if ('\0' != *basedir || '\0' != *file) fputs(": ", stderr); va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); } if (use_errno) { if ('\0' != *basedir || '\0' != *file || NULL != format) fputs(": ", stderr); perror(NULL); } else fputc('\n', stderr); }