/* $NetBSD: util.c,v 1.90 2003/05/09 12:34:42 lukem Exp $ */ /* * Copyright 1997 Piermont Information Systems Inc. * All rights reserved. * * Written by Philip A. Nelson for Piermont Information Systems Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed for the NetBSD Project by * Piermont Information Systems Inc. * 4. The name of Piermont Information Systems Inc. may not be used to endorse * or promote products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY PIERMONT INFORMATION SYSTEMS INC. ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL PIERMONT INFORMATION SYSTEMS INC. BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. * */ /* util.c -- routines that don't really fit anywhere else... */ #include #include #include #include #include #include #include #include #include #include #include #include "defs.h" #include "md.h" #include "msg_defs.h" #include "menu_defs.h" /* * local prototypes */ struct tarstats { int nselected; int nfound; int nnotfound; int nerror; int nsuccess; int nskipped; } tarstats; int extract_file (char *path); int extract_dist (void); #if 0 int cleanup_dist (const char *path); #endif int distribution_sets_exist_p (const char *path); static int check_for (unsigned int mode, const char *pathname); int dir_exists_p(path) const char *path; { return file_mode_match(path, S_IFDIR); } int file_exists_p(path) const char *path; { return file_mode_match(path, S_IFREG); } int file_mode_match(path, mode) const char *path; unsigned int mode; { struct stat st; return (stat(path, &st) == 0 && (st.st_mode & mode) != 0); } int distribution_sets_exist_p(path) const char *path; { char buf[STRSIZE]; int result; result = 1; snprintf(buf, STRSIZE, "%s/%s", path, "etc.tgz"); result = result && file_exists_p(buf); snprintf(buf, STRSIZE, "%s/%s", path, "base.tgz"); result = result && file_exists_p(buf); return(result); } void get_ramsize() { size_t len = sizeof(ramsize); int mib[2] = {CTL_HW, HW_PHYSMEM}; sysctl(mib, 2, &ramsize, &len, NULL, 0); /* Find out how many Megs ... round up. */ rammb = (unsigned int)((ramsize + MEG - 1) / MEG); } static int asked = 0; void ask_sizemult(cylsize) int cylsize; { current_cylsize = cylsize; /* XXX */ if (!asked) { msg_display(MSG_sizechoice); process_menu(MENU_sizechoice); } asked = 1; } void reask_sizemult(cylsize) int cylsize; { asked = 0; ask_sizemult(cylsize); } void run_makedev() { char *owd; wclear(stdscr); wrefresh(stdscr); msg_display(MSG_makedev); sleep (1); owd = getcwd(NULL, 0); /* make /dev, in case the user didn't extract it. */ make_target_dir("/dev"); target_chdir_or_die("/dev"); run_prog(0, NULL, "/bin/sh MAKEDEV all"); chdir(owd); free(owd); } /* * Load files from floppy. Requires a /mnt2 directory for mounting them. */ int get_via_floppy() { char distname[STRSIZE]; char fddev[STRSIZE] = "/dev/fd0a"; char fname[STRSIZE]; char full_name[STRSIZE]; char catcmd[STRSIZE]; distinfo *list; char post[4]; int mounted = 0; int first; struct stat sb; cd_dist_dir("unloading from floppy"); msg_prompt_add(MSG_fddev, fddev, fddev, STRSIZE); list = dist_list; while (list->name) { strcpy(post, ".aa"); snprintf(distname, STRSIZE, "%s%s", list->name, dist_postfix); while (list->getit) { snprintf(fname, STRSIZE, "%s%s", list->name, post); snprintf(full_name, STRSIZE, "/mnt2/%s", fname); first = 1; while (!mounted || stat(full_name, &sb)) { if (mounted) run_prog(0, NULL, "/sbin/umount /mnt2"); if (first) msg_display(MSG_fdmount, fname); else msg_display(MSG_fdnotfound, fname); process_menu(MENU_fdok); if (!yesno) return 0; else if (yesno == 2) return 1; while (run_prog(0, NULL, "/sbin/mount -r -t %s %s /mnt2", fdtype, fddev)) { msg_display(MSG_fdremount, fname); process_menu(MENU_fdremount); if (!yesno) return 0; else if (yesno == 2) return 1; } mounted = 1; first = 0; } sprintf(catcmd, "/bin/cat %s >> %s", full_name, distname); if (logging) (void)fprintf(logfp, "%s\n", catcmd); if (scripting) (void)fprintf(script, "%s\n", catcmd); do_system(catcmd); if (post[2] < 'z') post[2]++; else post[2] = 'a', post[1]++; } run_prog(0, NULL, "/sbin/umount /mnt2"); mounted = 0; list++; } #ifndef DEBUG chdir("/"); /* back to current real root */ #endif return 1; } /* * Get from a CDROM distribution. */ int get_via_cdrom() { char tmpdir[STRSIZE]; int retries = 0; /* Get CD-rom device name and path within CD-rom */ process_menu(MENU_cdromsource); again: run_prog(0, NULL, "/sbin/umount /mnt2"); /* Mount it */ if (run_prog(0, NULL, "/sbin/mount -rt cd9660 /dev/%sa /mnt2", cdrom_dev)) { if (retries++ < 5) { sleep(1); goto again; } msg_display(MSG_badsetdir, cdrom_dev); process_menu(MENU_cdrombadmount); if (!yesno) return 0; if (!ignorerror) goto again; } snprintf(tmpdir, STRSIZE, "%s/%s", "/mnt2", cdrom_dir); /* Verify distribution files exist. */ if (distribution_sets_exist_p(tmpdir) == 0) { msg_display(MSG_badsetdir, tmpdir); process_menu(MENU_cdrombadmount); if (!yesno) return (0); if (!ignorerror) goto again; } /* return location, don't clean... */ strncpy(ext_dir, tmpdir, STRSIZE); clean_dist_dir = 0; mnt2_mounted = 1; return 1; } /* * Get from a pathname inside an unmounted local filesystem * (e.g., where sets were preloaded onto a local DOS partition) */ int get_via_localfs() { char tmpdir[STRSIZE]; /* Get device, filesystem, and filepath */ process_menu (MENU_localfssource); again: run_prog(0, NULL, "/sbin/umount /mnt2"); /* Mount it */ if (run_prog(0, NULL, "/sbin/mount -rt %s /dev/%s /mnt2", localfs_fs, localfs_dev)) { msg_display(MSG_localfsbadmount, localfs_dir, localfs_dev); process_menu(MENU_localfsbadmount); if (!yesno) return 0; if (!ignorerror) goto again; } snprintf(tmpdir, STRSIZE, "%s/%s", "/mnt2", localfs_dir); /* Verify distribution files exist. */ if (distribution_sets_exist_p(tmpdir) == 0) { msg_display(MSG_badsetdir, tmpdir); process_menu(MENU_localfsbadmount); if (!yesno) return 0; if (!ignorerror) goto again; } /* return location, don't clean... */ strncpy(ext_dir, tmpdir, STRSIZE); clean_dist_dir = 0; mnt2_mounted = 1; return 1; } /* * Get from an already-mounted pathname. */ int get_via_localdir(void) { /* Get device, filesystem, and filepath */ process_menu(MENU_localdirsource); again: /* Complain if not a directory */ if (dir_exists_p(localfs_dir) == 0) { msg_display(MSG_badlocalsetdir, localfs_dir); process_menu(MENU_localdirbad); if (!yesno) return (0); if (!ignorerror) goto again; } /* Verify distribution files exist. */ if (distribution_sets_exist_p(localfs_dir) == 0) { msg_display(MSG_badsetdir, localfs_dir); process_menu(MENU_localdirbad); if (!yesno) return (0); if (!ignorerror) goto again; } /* return location, don't clean... */ strncpy(ext_dir, localfs_dir, STRSIZE); clean_dist_dir = 0; mnt2_mounted = 0; return 1; } void cd_dist_dir(forwhat) char *forwhat; { char *cwd; /* ask user for the mountpoint. */ msg_prompt(MSG_distdir, dist_dir, dist_dir, STRSIZE, forwhat); /* make sure the directory exists. */ make_target_dir(dist_dir); clean_dist_dir = 1; target_chdir_or_die(dist_dir); /* Set ext_dir for absolute path. */ cwd = getcwd(NULL,0); strncpy(ext_dir, cwd, STRSIZE); free (cwd); } /* * Support for custom distribution fetches / unpacks. */ void toggle_getit(num) int num; { dist_list[num].getit ^= 1; } void show_cur_distsets() { distinfo *list; msg_display(MSG_cur_distsets); msg_table_add(MSG_cur_distsets_header); list = dist_list; while (list->name) { msg_table_add(MSG_cur_distsets_row, list->desc, list->getit ? msg_string(MSG_yes) : msg_string(MSG_no)); list++; } } /* Do we want a verbose extract? */ static int verbose = -1; void ask_verbose_dist() { if (verbose < 0) { msg_display(MSG_verboseextract); process_menu(MENU_extract); verbose = yesno; wclear(stdscr); wrefresh(stdscr); } } int extract_file(path) char *path; { char *owd; int tarexit, rv; owd = getcwd (NULL,0); /* check tarfile exists */ if (!file_exists_p(path)) { tarstats.nnotfound++; msg_display(MSG_notarfile, path); process_menu(MENU_noyes); return (yesno == 0); } tarstats.nfound++; /* cd to the target root. */ target_chdir_or_die("/"); /* now extract set files files into "./". */ if (verbose==1) tarexit = run_prog(RUN_DISPLAY, NULL, "progress -zf %s tar -xepf -", path); else if (verbose==2) tarexit = run_prog(RUN_DISPLAY, NULL, "tar -zxvepf %s", path); else tarexit = run_prog(RUN_DISPLAY, NULL, "tar -zxepf %s", path); /* Check tarexit for errors and give warning. */ if (tarexit) { tarstats.nerror++; msg_display(MSG_tarerror, path); process_menu(MENU_noyes); rv = (yesno == 0); } else { tarstats.nsuccess++; rv = 0; } chdir(owd); free(owd); return (rv); } /* * Extract_dist **REQUIRES** an absolute path in ext_dir. Any code * that sets up dist_dir for use by extract_dist needs to put in the * full path name to the directory. */ int extract_dist() { char distname[STRSIZE]; char fname[STRSIZE]; distinfo *list; int punt; /* reset failure/success counters */ memset(&tarstats, 0, sizeof(tarstats)); /*endwin();*/ for (punt = 0, list = dist_list; list->name != NULL; list++) { if (list->getit) { tarstats.nselected++; if (punt) { tarstats.nskipped++; continue; } #if 0 if (cleanup_dist(list->name) == 0) { msg_display(MSG_cleanup_warn); process_menu(MENU_ok); } #endif (void)snprintf(distname, STRSIZE, "%s%s", list->name, dist_postfix); (void)snprintf(fname, STRSIZE, "%s/%s", ext_dir, distname); /* if extraction failed and user aborted, punt. */ punt = extract_file(fname); } } wrefresh(curscr); wmove(stdscr, 0, 0); wclear(stdscr); wrefresh(stdscr); if (tarstats.nerror == 0 && tarstats.nsuccess == tarstats.nselected) { msg_display(MSG_endtarok); process_menu(MENU_ok); return 0; } else { /* We encountered errors. Let the user know. */ msg_display(MSG_endtar, tarstats.nselected, tarstats.nnotfound, tarstats.nskipped, tarstats.nfound, tarstats.nsuccess, tarstats.nerror); process_menu(MENU_ok); return 1; } } #if 0 /* { NOMORE */ /* * Do pre-extract cleanup for set 'name': * open a file named '/var/db/obsolete/', which contain a list of * files to kill from the target. For each file, test if it is present on * the target. Then display the list of files which will be removed, * ask user for confirmation, and process. * Non-empty directories will be renamed to . */ /* definition for a list of files. */ struct filelist { struct filelist *next; char name[MAXPATHLEN]; mode_t type; }; int cleanup_dist(name) const char *name; { char file_path[MAXPATHLEN]; char file_name[MAXPATHLEN]; const char *file_prefix; FILE *list_file; struct filelist *head = NULL; struct filelist *current; int saved_errno; struct stat st; int retval = 1; int needok = 0; snprintf(file_path, MAXPATHLEN, "/var/db/obsolete/%s", name); list_file = fopen(file_path, "r"); if (list_file == NULL) { saved_errno = errno; if (logging) fprintf(logfp, "Open of %s failed: %s\n", file_path, strerror(saved_errno)); if (saved_errno == ENOENT) return 1; msg_display_add(MSG_openfail, name, strerror(saved_errno)); process_menu(MENU_ok); return 0; } file_prefix = target_prefix(); while (fgets(file_name, MAXPATHLEN, list_file)) { /* Remove trailing \n if any */ if (file_name[strlen(file_name)-1] == '\n') file_name[strlen(file_name)-1] = '\0'; snprintf(file_path, MAXPATHLEN, "%s/%s", file_prefix, file_name); if (lstat(file_path, &st) != 0) { saved_errno = errno; if (logging) fprintf(logfp, "stat() of %s failed: %s\n", file_path, strerror(saved_errno)); if (saved_errno == ENOENT) continue; msg_display_add(MSG_statfail, file_path, strerror(saved_errno)); process_menu(MENU_ok); return 0; } if (head == NULL) { head = current = malloc(sizeof(struct filelist)); if (head == NULL) { fprintf(stderr, "out of memory\n"); exit(1); } } else { current->next = malloc(sizeof(struct filelist)); if (current->next == NULL) { fprintf(stderr, "out of memory\n"); exit(1); } current = current->next; } current->next = NULL; snprintf(current->name, MAXPATHLEN, "%s", file_path); current->type = st.st_mode & S_IFMT; if (logging) fprintf(logfp, "Adding file %s, type %d to list of " "obsolete file\n", current->name, current->type); } fclose(list_file); if (head == NULL) return 1; #if 0 /* XXX doesn't work, too many files printed ! */ msg_display(MSG_deleting_files); for (current = head; current != NULL; current = current->next) { if (current->type != S_IFDIR) { /* XXX msg_printf_add going/gone away */ msg_printf_add("%s ", current->name); } } msg_display_add(MSG_deleting_dirs); for (current = head; current != NULL; current = current->next) { if (current->type == S_IFDIR) { /* XXX msg_printf_add going/gone away */ msg_printf_add("%s ", current->name); } } process_menu(MENU_ok); #endif /* first remove files */ for (current = head; current != NULL; current = current->next) { if (current->type == S_IFDIR) continue; if (scripting) (void)fprintf(script, "rm %s\n", current->name); if (unlink(current->name) != 0) { saved_errno = errno; if (saved_errno == ENOENT) continue; /* don't worry about non-existing files */ if (logging) fprintf(logfp, "rm %s failed: %s\n", current->name, strerror(saved_errno)); msg_display_add(MSG_unlink_fail, current->name, strerror(saved_errno)); retval = 0; needok = 1; } } /* now dirs */ for (current = head; current != NULL; current = current->next) { if (current->type != S_IFDIR) continue; if (rmdir(current->name) == 0) { if (scripting) (void)fprintf(script, "rmdir %s\n", current->name); continue; } saved_errno = errno; if (saved_errno == ENOTEMPTY) { if (logging) fprintf(logfp, "dir %s not empty, " "trying to rename to %s.old\n", current->name, current->name); snprintf(file_path, MAXPATHLEN, "%s.old", current->name); if (scripting) (void)fprintf(script, "mv %s %s\n", current->name, file_path); needok = 1; if (rename(current->name, file_path) != 0) { saved_errno = errno; if (logging) fprintf(logfp, "mv %s %s failed: %s\n", current->name, file_path, strerror(saved_errno)); msg_display_add(MSG_rename_fail, current->name, file_path, strerror(errno)); retval = 0; } msg_display_add(MSG_renamed_dir, current->name, file_path); } else { /* rmdir error */ /* * Don't worry about non-existing directories. */ if (saved_errno == ENOENT) continue; if (logging) fprintf(logfp, "rm %s failed: %s\n", current->name, strerror(saved_errno)); msg_display_add(MSG_unlink_fail, current->name, strerror(saved_errno)); retval = 0; needok = 1; } } if (needok) process_menu(MENU_ok); return retval; } #endif /* } NOMORE */ /* * Get and unpack the distribution. * show success_msg if installation completes. Otherwise,, * show failure_msg and wait for the user to ack it before continuing. * success_msg and failure_msg must both be 0-adic messages. */ int get_and_unpack_sets(success_msg, failure_msg) msg success_msg; msg failure_msg; { /* Ensure mountpoint for distribution files exists in current root. */ (void) mkdir("/mnt2", S_IRWXU| S_IRGRP|S_IXGRP | S_IROTH|S_IXOTH); if (scripting) (void)fprintf(script, "mkdir /mnt2\nchmod 755 /mnt2\n"); /* Find out which files to "get" if we get files. */ wclear(stdscr); wrefresh(stdscr); process_menu(MENU_distset); /* ask user whether to do normal or verbose extraction */ ask_verbose_dist(); /* Get the distribution files */ do { got_dist = 0; process_menu(MENU_distmedium); } while (got_dist == -1); if (nodist) return 1; if (got_dist) { /* Extract the distribution, abort on errors. */ if (extract_dist()) return 1; /* Configure the system */ run_makedev(); /* Other configuration. */ mnt_net_config(); /* Clean up dist dir (use absolute path name) */ if (clean_dist_dir) run_prog(0, NULL, "/bin/rm -rf %s", ext_dir); /* Mounted dist dir? */ if (mnt2_mounted) run_prog(0, NULL, "/sbin/umount /mnt2"); /* Install/Upgrade complete ... reboot or exit to script */ msg_display(success_msg); process_menu(MENU_ok); return 0; } msg_display(failure_msg); process_menu(MENU_ok); return 1; } /* * Do a quick sanity check that the target can reboot. * return 1 if everything OK, 0 if there is a problem. * Uses a table of files we expect to find after a base install/upgrade. */ /* test flag and pathname to check for after unpacking. */ struct check_table { unsigned int mode; const char *path;} checks[] = { { S_IFREG, "/netbsd" }, { S_IFDIR, "/etc" }, { S_IFREG, "/etc/fstab" }, { S_IFREG, "/sbin/init" }, { S_IFREG, "/bin/sh" }, { S_IFREG, "/etc/rc" }, { S_IFREG, "/etc/rc.subr" }, { S_IFREG, "/etc/rc.conf" }, { S_IFDIR, "/dev" }, { S_IFCHR, "/dev/console" }, /* XXX check for rootdev in target /dev? */ { S_IFREG, "/etc/fstab" }, { S_IFREG, "/sbin/fsck" }, { S_IFREG, "/sbin/fsck_ffs" }, { S_IFREG, "/sbin/mount" }, { S_IFREG, "/sbin/mount_ffs" }, { S_IFREG, "/sbin/mount_nfs" }, #if defined(DEBUG) || defined(DEBUG_CHECK) { S_IFREG, "/foo/bar" }, /* bad entry to exercise warning */ #endif { 0, 0 } }; /* * Check target for a single file. */ static int check_for(mode, pathname) unsigned int mode; const char *pathname; { int found; found = (target_test(mode, pathname) == 0); if (found == 0) msg_display(MSG_rootmissing, pathname); return found; } /* * Check that all the files in check_table are present in the * target root. Warn if not found. */ int sanity_check() { int target_ok = 1; struct check_table *p; for (p = checks; p->path; p++) { target_ok = target_ok && check_for(p->mode, p->path); } if (target_ok) return 0; /* Uh, oh. Something's missing. */ msg_display(MSG_badroot); process_menu(MENU_ok); return 1; } #ifdef notdef /* set reverse to 1 to default to no */ int askyesno(int reverse) { WINDOW *yesnowin; int c, found; yesnowin = subwin(stdscr, 5, 20, getmaxy(stdscr)/2 - 2, getmaxx(stdscr)/2 - 10); if (yesnowin == NULL) { fprintf(stderr, "sysinst: failed to allocate yes/no box\n"); exit(1); } box(yesnowin, '*', '*'); wmove(yesnowin, 2,2); if (reverse) waddstr(yesnowin, "Yes or No: [N]"); else waddstr(yesnowin, "Yes or No: [Y]"); wrefresh(yesnowin); while ((c = getchar()) != 0) { if (c == 'y' || c == 'Y') { found = 1; break; } else if (c == 'n' || c == 'N' ) { found = 0; break; } else if (c == '\n' || c == '\r') { if (reverse) found = 0; else found = 1; break; } } wclear(yesnowin); wrefresh(yesnowin); delwin(yesnowin); refresh(); return(found); } #endif /* * Some globals to pass things back from callbacks */ static char zoneinfo_dir[STRSIZE]; static char *tz_selected; /* timezonename (relative to share/zoneinfo */ static char *tz_default; /* UTC, or whatever /etc/localtime points to */ static char tz_env[STRSIZE]; /* * Callback from timezone menu */ static int set_timezone_select(menudesc *m) { time_t t; if (m) tz_selected = m->opts[m->cursel].opt_name; snprintf(tz_env, sizeof(tz_env), "%s/%s", zoneinfo_dir, tz_selected); setenv("TZ", tz_env, 1); t = time(NULL); msg_display(MSG_choose_timezone, tz_default, tz_selected, ctime(&t), localtime(&t)->tm_zone); return 0; } /* * Alarm-handler to update example-display */ static void /*ARGSUSED*/ timezone_sig(int sig) { set_timezone_select(NULL); alarm(60); } /* * Choose from the files in usr/share/zoneinfo and set etc/localtime */ int set_timezone() { char localtime_link[STRSIZE]; char localtime_target[STRSIZE]; int rc; time_t t; FTS *tree; FTSENT *entry; char *argv[2]; int skip; struct stat sb; int nfiles, n; int menu_no; menu_ent *tz_menu; signal(SIGALRM, timezone_sig); alarm(1); strncpy(zoneinfo_dir, target_expand("/usr/share/zoneinfo"), STRSIZE); strncpy(localtime_link, target_expand("/etc/localtime"), STRSIZE); /* Add sanity check that /mnt/usr/share/zoneinfo contains * something useful */ rc = readlink(localtime_link, localtime_target, sizeof(localtime_target) - 1); if (rc < 0) { /* error, default to UTC */ tz_default = "UTC"; } else { localtime_target[rc] = '\0'; tz_default = strchr(strstr(localtime_target, "zoneinfo"), '/')+1; } tz_selected=tz_default; snprintf(tz_env, sizeof(tz_env), "%s/%s", zoneinfo_dir, tz_selected); setenv("TZ", tz_env, 1); t = time(NULL); msg_display(MSG_choose_timezone, tz_default, tz_selected, ctime(&t), localtime(&t)->tm_zone); skip = strlen(zoneinfo_dir); argv[0] = zoneinfo_dir; argv[1] = NULL; if (!(tree = fts_open(argv, FTS_LOGICAL, NULL))) { return 1; /* error - skip timezone setting */ } for (nfiles = 0; (entry = fts_read(tree)) != NULL;) { stat(entry->fts_accpath, &sb); if (S_ISREG(sb.st_mode)) nfiles++; } if (errno) { return 1; /* error - skip timezone setting */ } (void)fts_close(tree); tz_menu = malloc(nfiles * sizeof(struct menu_ent)); if (tz_menu == NULL) { return 1; /* error - skip timezone setting */ } if (!(tree = fts_open(argv, FTS_LOGICAL, NULL))) { return 1; /* error - skip timezone setting */ } n = 0; for (; (entry = fts_read(tree)) != NULL; ) { stat(entry->fts_accpath, &sb); if (S_ISREG(sb.st_mode)) { tz_menu[n].opt_name = strdup(entry->fts_accpath+skip+1); if (tz_menu[n].opt_name == NULL) tz_menu[n].opt_name = "*"; tz_menu[n].opt_menu = OPT_NOMENU; tz_menu[n].opt_flags = 0; tz_menu[n].opt_action = set_timezone_select; n++; } } if (errno) { return 1; /* error - skip timezone setting */ } (void)fts_close(tree); menu_no = new_menu(NULL, tz_menu, nfiles, 23, 9, 12, 32, MC_SCROLL|MC_NOSHORTCUT, NULL, NULL, "\nPlease consult the install documents."); if (menu_no < 0) { return 1; /* error - skip timezone setting */ } process_menu(menu_no); free_menu(menu_no); for(n=0; n < nfiles; n++) free(tz_menu[n].opt_name); free(tz_menu); signal(SIGALRM, SIG_IGN); snprintf(localtime_target, sizeof(localtime_target), "/usr/share/zoneinfo/%s", tz_selected); unlink(localtime_link); symlink(localtime_target, localtime_link); return 1; } int set_crypt_type(void) { FILE *pwc; char *fn; msg_display(MSG_choose_crypt); process_menu(MENU_crypttype); fn = strdup(target_expand("/etc/passwd.conf")); if (fn == NULL) return -1; switch (yesno) { case 0: break; case 1: /* DES */ rename(fn, target_expand("/etc/passwd.conf.pre-sysinst")); pwc = fopen(fn, "w"); fprintf(pwc, "default:\n" " localcipher = old\n" " ypcipher = old\n"); fclose(pwc); break; case 2: /* MD5 */ rename(fn, target_expand("/etc/passwd.conf.pre-sysinst")); pwc = fopen(fn, "w"); fprintf(pwc, "default:\n" " localcipher = md5\n" " ypcipher = md5\n"); fclose(pwc); break; case 3: /* blowfish 2^7 */ rename(fn, target_expand("/etc/passwd.conf.pre-sysinst")); pwc = fopen(fn, "w"); fprintf(pwc, "default:\n" " localcipher = blowfish,7\n" " ypcipher = blowfish,7\n"); fclose(pwc); break; } free(fn); return (0); } int set_root_password() { msg_display(MSG_rootpw); process_menu(MENU_yesno); if (yesno) run_prog(RUN_DISPLAY|RUN_CHROOT, NULL, "passwd -l root"); return 0; } int set_root_shell() { msg_display(MSG_rootsh); process_menu(MENU_rootsh); run_prog(RUN_DISPLAY|RUN_CHROOT, NULL, "chpass -s %s root", shellpath); return 0; } void scripting_vfprintf(FILE *f, const char *fmt, va_list ap) { if (f) (void)vfprintf(f, fmt, ap); if (scripting) (void)vfprintf(script, fmt, ap); } void scripting_fprintf(FILE *f, const char *fmt, ...) { va_list ap; va_start(ap, fmt); scripting_vfprintf(f, fmt, ap); va_end(ap); } void add_rc_conf(const char *fmt, ...) { FILE *f; va_list ap; va_start(ap, fmt); f = target_fopen("/etc/rc.conf", "a"); if (f != 0) { scripting_fprintf(NULL, "cat <>%s/etc/rc.conf\n", target_prefix()); scripting_vfprintf(f, fmt, ap); fclose(f); scripting_fprintf(NULL, "EOF\n"); } va_end(ap); } int check_lfs_progs() { return (access("/sbin/dump_lfs", X_OK) == 0 && access("/sbin/fsck_lfs", X_OK) == 0 && access("/sbin/mount_lfs", X_OK) == 0 && access("/sbin/newfs_lfs", X_OK) == 0); }