/* * check_grp_file - check the content of the group file */ static void check_grp_file (int *errors, bool *changed) { struct commonio_entry *gre, *tgre; struct group *grp; #ifdef SHADOWGRP struct sgrp *sgr; #endif /* * Loop through the entire group file. */ for (gre = __gr_get_head (); NULL != gre; gre = gre->next) { /* * Skip all NIS entries. */ if ((gre->line[0] == '+') || (gre->line[0] == '-')) { continue; } /* * Start with the entries that are completely corrupt. They * have no (struct group) entry because they couldn't be * parsed properly. */ if (NULL == gre->eptr) { /* * Tell the user this entire line is bogus and ask * them to delete it. */ (void) puts (_("invalid group file entry")); printf (_("delete line '%s'? "), gre->line); *errors += 1; /* * prompt the user to delete the entry or not */ if (!yes_or_no (read_only)) { continue; } /* * All group file deletions wind up here. This code * removes the current entry from the linked list. * When done, it skips back to the top of the loop * to try out the next list element. */ delete_gr: SYSLOG ((LOG_INFO, "delete group line '%s'", gre->line)); *changed = true; __gr_del_entry (gre); continue; } /* * Group structure is good, start using it. */ grp = gre->eptr; /* * Make sure this entry has a unique name. */ for (tgre = __gr_get_head (); NULL != tgre; tgre = tgre->next) { const struct group *ent = tgre->eptr; /* * Don't check this entry */ if (tgre == gre) { continue; } /* * Don't check invalid entries. */ if (NULL == ent) { continue; } if (strcmp (grp->gr_name, ent->gr_name) != 0) { continue; } /* * Tell the user this entry is a duplicate of * another and ask them to delete it. */ (void) puts (_("duplicate group entry")); printf (_("delete line '%s'? "), gre->line); *errors += 1; /* * prompt the user to delete the entry or not */ if (yes_or_no (read_only)) { goto delete_gr; } } /* * Check for invalid group names. --marekm */ if (!is_valid_group_name (grp->gr_name)) { *errors += 1; printf (_("invalid group name '%s'\n"), grp->gr_name); } /* * Check for invalid group ID. */ if (grp->gr_gid == (gid_t)-1) { printf (_("invalid group ID '%lu'\n"), (long unsigned int)grp->gr_gid); *errors += 1; } /* * Workaround for a NYS libc 5.3.12 bug on RedHat 4.2 - * groups with no members are returned as groups with one * member "", causing grpck to fail. --marekm */ if ( (NULL != grp->gr_mem[0]) && (NULL == grp->gr_mem[1]) && ('\0' == grp->gr_mem[0][0])) { grp->gr_mem[0] = NULL; } if (check_members (grp->gr_name, grp->gr_mem, _("group %s: no user %s\n"), _("delete member '%s'? "), "delete member '%s' from group '%s'", errors) == 1) { *changed = true; gre->changed = true; __gr_set_changed (); } #ifdef SHADOWGRP /* * Make sure this entry exists in the /etc/gshadow file. */ if (is_shadow) { sgr = (struct sgrp *) sgr_locate (grp->gr_name); if (sgr == NULL) { printf (_("no matching group file entry in %s\n"), sgr_file); printf (_("add group '%s' in %s? "), grp->gr_name, sgr_file); *errors += 1; if (yes_or_no (read_only)) { struct sgrp sg; struct group gr; static char *empty = NULL; sg.sg_name = grp->gr_name; sg.sg_passwd = grp->gr_passwd; sg.sg_adm = ∅ sg.sg_mem = grp->gr_mem; SYSLOG ((LOG_INFO, "add group '%s' to '%s'", grp->gr_name, sgr_file)); *changed = true; if (sgr_update (&sg) == 0) { fprintf (stderr, _("%s: failed to prepare the new %s entry '%s'\n"), Prog, sgr_dbname (), sg.sg_name); fail_exit (E_CANT_UPDATE); } /* remove password from /etc/group */ gr = *grp; gr.gr_passwd = SHADOW_PASSWD_STRING; /* XXX warning: const */ if (gr_update (&gr) == 0) { fprintf (stderr, _("%s: failed to prepare the new %s entry '%s'\n"), Prog, gr_dbname (), gr.gr_name); fail_exit (E_CANT_UPDATE); } } } else { /** * Verify that all the members defined in /etc/group are also * present in /etc/gshadow. */ compare_members_lists (grp->gr_name, grp->gr_mem, sgr->sg_mem, grp_file, sgr_file); /* The group entry has a gshadow counterpart. * Make sure no passwords are in group. */ if (strcmp (grp->gr_passwd, SHADOW_PASSWD_STRING) != 0) { printf (_("group %s has an entry in %s, but its password field in %s is not set to 'x'\n"), grp->gr_name, sgr_file, grp_file); *errors += 1; } } } #endif } }
/* * grpck - verify group file integrity */ int main (int argc, char **argv) { int arg; int errors = 0; int deleted = 0; int i; struct commonio_entry *gre, *tgre; struct group *grp; int sort_mode = 0; #ifdef SHADOWGRP struct commonio_entry *sge, *tsge; struct sgrp *sgr; int is_shadow = 0; #endif /* * Get my name so that I can use it to report errors. */ Prog = Basename (argv[0]); setlocale (LC_ALL, ""); bindtextdomain (PACKAGE, LOCALEDIR); textdomain (PACKAGE); OPENLOG ("grpck"); /* * Parse the command line arguments */ while ((arg = getopt (argc, argv, "qrs")) != EOF) { switch (arg) { case 'q': /* quiet - ignored for now */ break; case 'r': read_only = 1; break; case 's': sort_mode = 1; break; default: usage (); } } if (sort_mode && read_only) { fprintf (stderr, _("%s: -s and -r are incompatibile\n"), Prog); exit (E_USAGE); } /* * Make certain we have the right number of arguments */ #ifdef SHADOWGRP if (optind != argc && optind + 1 != argc && optind + 2 != argc) #else if (optind != argc && optind + 1 != argc) #endif usage (); /* * If there are two left over filenames, use those as the group and * group password filenames. */ if (optind != argc) { grp_file = argv[optind]; gr_name (grp_file); } #ifdef SHADOWGRP if (optind + 2 == argc) { sgr_file = argv[optind + 1]; sgr_name (sgr_file); is_shadow = 1; } else if (optind == argc) is_shadow = sgr_file_present (); #endif /* * Lock the files if we aren't in "read-only" mode */ if (!read_only) { if (!gr_lock ()) { fprintf (stderr, _("%s: cannot lock file %s\n"), Prog, grp_file); if (optind == argc) SYSLOG ((LOG_WARN, "cannot lock %s", grp_file)); closelog (); exit (E_CANT_LOCK); } #ifdef SHADOWGRP if (is_shadow && !sgr_lock ()) { fprintf (stderr, _("%s: cannot lock file %s\n"), Prog, sgr_file); if (optind == argc) SYSLOG ((LOG_WARN, "cannot lock %s", sgr_file)); closelog (); exit (E_CANT_LOCK); } #endif } /* * Open the files. Use O_RDONLY if we are in read_only mode, * O_RDWR otherwise. */ if (!gr_open (read_only ? O_RDONLY : O_RDWR)) { fprintf (stderr, _("%s: cannot open file %s\n"), Prog, grp_file); if (optind == argc) SYSLOG ((LOG_WARN, "cannot open %s", grp_file)); closelog (); exit (E_CANT_OPEN); } #ifdef SHADOWGRP if (is_shadow && !sgr_open (read_only ? O_RDONLY : O_RDWR)) { fprintf (stderr, _("%s: cannot open file %s\n"), Prog, sgr_file); if (optind == argc) SYSLOG ((LOG_WARN, "cannot open %s", sgr_file)); closelog (); exit (E_CANT_OPEN); } #endif if (sort_mode) { gr_sort (); #ifdef SHADOWGRP if (is_shadow) sgr_sort (); #endif goto write_and_bye; } /* * Loop through the entire group file. */ for (gre = __gr_get_head (); gre; gre = gre->next) { /* * Skip all NIS entries. */ if (gre->line[0] == '+' || gre->line[0] == '-') continue; /* * Start with the entries that are completely corrupt. They * have no (struct group) entry because they couldn't be * parsed properly. */ if (!gre->eptr) { /* * Tell the user this entire line is bogus and ask * them to delete it. */ printf (_("invalid group file entry\n")); printf (_("delete line `%s'? "), gre->line); errors++; /* * prompt the user to delete the entry or not */ if (!yes_or_no ()) continue; /* * All group file deletions wind up here. This code * removes the current entry from the linked list. * When done, it skips back to the top of the loop * to try out the next list element. */ delete_gr: SYSLOG ((LOG_INFO, "delete group line `%s'", gre->line)); deleted++; __gr_del_entry (gre); continue; } /* * Group structure is good, start using it. */ grp = gre->eptr; /* * Make sure this entry has a unique name. */ for (tgre = __gr_get_head (); tgre; tgre = tgre->next) { const struct group *ent = tgre->eptr; /* * Don't check this entry */ if (tgre == gre) continue; /* * Don't check invalid entries. */ if (!ent) continue; if (strcmp (grp->gr_name, ent->gr_name) != 0) continue; /* * Tell the user this entry is a duplicate of * another and ask them to delete it. */ printf (_("duplicate group entry\n")); printf (_("delete line `%s'? "), gre->line); errors++; /* * prompt the user to delete the entry or not */ if (yes_or_no ()) goto delete_gr; } /* * Check for invalid group names. --marekm */ if (!check_group_name (grp->gr_name)) { errors++; printf (_("invalid group name `%s'\n"), grp->gr_name); } /* * Workaround for a NYS libc 5.3.12 bug on RedHat 4.2 - * groups with no members are returned as groups with one * member "", causing grpck to fail. --marekm */ if (grp->gr_mem[0] && !grp->gr_mem[1] && *(grp->gr_mem[0]) == '\0') grp->gr_mem[0] = (char *) 0; /* * Make sure each member exists */ for (i = 0; grp->gr_mem[i]; i++) { if (getpwnam (grp->gr_mem[i])) continue; /* * Can't find this user. Remove them * from the list. */ errors++; printf (_("group %s: no user %s\n"), grp->gr_name, grp->gr_mem[i]); printf (_("delete member `%s'? "), grp->gr_mem[i]); if (!yes_or_no ()) continue; SYSLOG ((LOG_INFO, "delete member `%s' group `%s'", grp->gr_mem[i], grp->gr_name)); deleted++; delete_member (grp->gr_mem, grp->gr_mem[i]); gre->changed = 1; __gr_set_changed (); } } #ifdef SHADOWGRP if (!is_shadow) goto shadow_done; /* * Loop through the entire shadow group file. */ for (sge = __sgr_get_head (); sge; sge = sge->next) { /* * Start with the entries that are completely corrupt. They * have no (struct sgrp) entry because they couldn't be * parsed properly. */ if (!sge->eptr) { /* * Tell the user this entire line is bogus and ask * them to delete it. */ printf (_("invalid shadow group file entry\n")); printf (_("delete line `%s'? "), sge->line); errors++; /* * prompt the user to delete the entry or not */ if (!yes_or_no ()) continue; /* * All shadow group file deletions wind up here. * This code removes the current entry from the * linked list. When done, it skips back to the top * of the loop to try out the next list element. */ delete_sg: SYSLOG ((LOG_INFO, "delete shadow line `%s'", sge->line)); deleted++; __sgr_del_entry (sge); continue; } /* * Shadow group structure is good, start using it. */ sgr = sge->eptr; /* * Make sure this entry has a unique name. */ for (tsge = __sgr_get_head (); tsge; tsge = tsge->next) { const struct sgrp *ent = tsge->eptr; /* * Don't check this entry */ if (tsge == sge) continue; /* * Don't check invalid entries. */ if (!ent) continue; if (strcmp (sgr->sg_name, ent->sg_name) != 0) continue; /* * Tell the user this entry is a duplicate of * another and ask them to delete it. */ printf (_("duplicate shadow group entry\n")); printf (_("delete line `%s'? "), sge->line); errors++; /* * prompt the user to delete the entry or not */ if (yes_or_no ()) goto delete_sg; } /* * Make sure this entry exists in the /etc/group file. */ if (!gr_locate (sgr->sg_name)) { printf (_("no matching group file entry\n")); printf (_("delete line `%s'? "), sge->line); errors++; if (yes_or_no ()) goto delete_sg; } /* * Make sure each administrator exists */ for (i = 0; sgr->sg_adm[i]; i++) { if (getpwnam (sgr->sg_adm[i])) continue; /* * Can't find this user. Remove them * from the list. */ errors++; printf (_ ("shadow group %s: no administrative user %s\n"), sgr->sg_name, sgr->sg_adm[i]); printf (_("delete administrative member `%s'? "), sgr->sg_adm[i]); if (!yes_or_no ()) continue; SYSLOG ((LOG_INFO, "delete admin `%s' from shadow group `%s'", sgr->sg_adm[i], sgr->sg_name)); deleted++; delete_member (sgr->sg_adm, sgr->sg_adm[i]); sge->changed = 1; __sgr_set_changed (); } /* * Make sure each member exists */ for (i = 0; sgr->sg_mem[i]; i++) { if (getpwnam (sgr->sg_mem[i])) continue; /* * Can't find this user. Remove them from the list. */ errors++; printf (_("shadow group %s: no user %s\n"), sgr->sg_name, sgr->sg_mem[i]); printf (_("delete member `%s'? "), sgr->sg_mem[i]); if (!yes_or_no ()) continue; SYSLOG ((LOG_INFO, "delete member `%s' from shadow group `%s'", sgr->sg_mem[i], sgr->sg_name)); deleted++; delete_member (sgr->sg_mem, sgr->sg_mem[i]); sge->changed = 1; __sgr_set_changed (); } } shadow_done: #endif /* SHADOWGRP */ /* * All done. If there were no deletions we can just abandon any * changes to the files. */ if (deleted) { write_and_bye: if (!gr_close ()) { fprintf (stderr, _("%s: cannot update file %s\n"), Prog, grp_file); exit (E_CANT_UPDATE); } #ifdef SHADOWGRP if (is_shadow && !sgr_close ()) { fprintf (stderr, _("%s: cannot update file %s\n"), Prog, sgr_file); exit (E_CANT_UPDATE); } #endif } /* * Don't be anti-social - unlock the files when you're done. */ #ifdef SHADOWGRP if (is_shadow) sgr_unlock (); #endif (void) gr_unlock (); nscd_flush_cache ("group"); /* * Tell the user what we did and exit. */ if (errors) printf (deleted ? _("%s: the files have been updated\n") : _("%s: no changes\n"), Prog); exit (errors ? E_BAD_ENTRY : E_OKAY); }