/* * Copyright 1985, 1986, 1987, 1988 by the Massachusetts Institute * of Technology. * For copying and distribution information, please see the file * . * * This routine changes the Kerberos encryption keys for principals, * i.e., users or services. * * from: kdb_edit.c,v 4.2 90/01/09 16:05:09 raeburn Exp $ * $Id: kdb_edit.c,v 1.3 1994/09/09 21:43:46 g89r4222 Exp $ */ /* * exit returns 0 ==> success -1 ==> error */ #ifndef lint static char rcsid[] = "$Id: kdb_edit.c,v 1.3 1994/09/09 21:43:46 g89r4222 Exp $"; #endif lint #include #include #include #include #include #include #include "time.h" #include #include #include /* MKEYFILE is now defined in kdc.h */ #include extern char *errmsg(); extern int errno; extern char *strcpy(); void sig_exit(); #define zaptime(foo) bzero((char *)(foo), sizeof(*(foo))) char prog[32]; char *progname = prog; int nflag = 0; int cflag; int lflag; int uflag; int debug; extern kerb_debug; Key_schedule KS; C_Block new_key; unsigned char *input; unsigned char *ivec; int i, j; int more; char *in_ptr; char input_name[ANAME_SZ]; char input_instance[INST_SZ]; char input_string[ANAME_SZ]; #define MAX_PRINCIPAL 10 Principal principal_data[MAX_PRINCIPAL]; static Principal old_principal; static Principal default_princ; static C_Block master_key; static C_Block session_key; static Key_schedule master_key_schedule; static char pw_str[255]; static long master_key_version; /* * gets replacement */ static char * s_gets(char * str, int len) { int i; char *s; if((s = fgets(str, len, stdin)) == NULL) return(s); if(str[i = (strlen(str)-1)] == '\n') str[i] = '\0'; return(s); } main(argc, argv) int argc; char *argv[]; { /* Local Declarations */ long n; prog[sizeof prog - 1] = '\0'; /* make sure terminated */ strncpy(prog, argv[0], sizeof prog - 1); /* salt away invoking * program */ /* Assume a long is four bytes */ if (sizeof(long) != 4) { fprintf(stdout, "%s: size of long is %d.\n", sizeof(long), prog); exit(-1); } /* Assume <=32 signals */ if (NSIG > 32) { fprintf(stderr, "%s: more than 32 signals defined.\n", prog); exit(-1); } while (--argc > 0 && (*++argv)[0] == '-') for (i = 1; argv[0][i] != '\0'; i++) { switch (argv[0][i]) { /* debug flag */ case 'd': debug = 1; continue; /* debug flag */ case 'l': kerb_debug |= 1; continue; case 'n': /* read MKEYFILE for master key */ nflag = 1; continue; default: fprintf(stderr, "%s: illegal flag \"%c\"\n", progname, argv[0][i]); Usage(); /* Give message and die */ } }; fprintf(stdout, "Opening database...\n"); fflush(stdout); kerb_init(); if (argc > 0) { if (kerb_db_set_name(*argv) != 0) { fprintf(stderr, "Could not open altername database name\n"); exit(1); } } #ifdef notdef no_core_dumps(); /* diddle signals to avoid core dumps! */ /* ignore whatever is reasonable */ signal(SIGHUP, SIG_IGN); signal(SIGINT, SIG_IGN); signal(SIGTSTP, SIG_IGN); #endif if (kdb_get_master_key ((nflag == 0), master_key, master_key_schedule) != 0) { fprintf (stdout, "Couldn't read master key.\n"); fflush (stdout); exit (-1); } if ((master_key_version = kdb_verify_master_key(master_key, master_key_schedule, stdout)) < 0) exit (-1); /* lookup the default values */ n = kerb_get_principal(KERB_DEFAULT_NAME, KERB_DEFAULT_INST, &default_princ, 1, &more); if (n != 1) { fprintf(stderr, "%s: Kerberos error on default value lookup, %d found.\n", progname, n); exit(-1); } fprintf(stdout, "Previous or default values are in [brackets] ,\n"); fprintf(stdout, "enter return to leave the same, or new value.\n"); while (change_principal()) { } cleanup(); } change_principal() { static char temp[255]; int creating = 0; int editpw = 0; int changed = 0; long temp_long; int n; struct tm *tp, edate, *localtime(); long maketime(); fprintf(stdout, "\nPrincipal name: "); fflush(stdout); if (!s_gets(input_name, ANAME_SZ-1) || *input_name == '\0') return 0; fprintf(stdout, "Instance: "); fflush(stdout); /* instance can be null */ s_gets(input_instance, INST_SZ-1); j = kerb_get_principal(input_name, input_instance, principal_data, MAX_PRINCIPAL, &more); if (!j) { fprintf(stdout, "\n\07\07, Create [y] ? "); s_gets(temp, sizeof(temp)-1); /* Default case should work, it didn't */ if (temp[0] != 'y' && temp[0] != 'Y' && temp[0] != '\0') return -1; /* make a new principal, fill in defaults */ j = 1; creating = 1; strcpy(principal_data[0].name, input_name); strcpy(principal_data[0].instance, input_instance); principal_data[0].old = NULL; principal_data[0].exp_date = default_princ.exp_date; principal_data[0].max_life = default_princ.max_life; principal_data[0].attributes = default_princ.attributes; principal_data[0].kdc_key_ver = (unsigned char) master_key_version; principal_data[0].key_version = 0; /* bumped up later */ } tp = localtime(&principal_data[0].exp_date); (void) sprintf(principal_data[0].exp_date_txt, "%4d-%02d-%02d", tp->tm_year > 1900 ? tp->tm_year : tp->tm_year + 1900, tp->tm_mon + 1, tp->tm_mday); /* January is 0, not 1 */ for (i = 0; i < j; i++) { for (;;) { fprintf(stdout, "\nPrincipal: %s, Instance: %s, kdc_key_ver: %d", principal_data[i].name, principal_data[i].instance, principal_data[i].kdc_key_ver); editpw = 1; changed = 0; if (!creating) { /* * copy the existing data so we can use the old values * for the qualifier clause of the replace */ principal_data[i].old = (char *) &old_principal; bcopy(&principal_data[i], &old_principal, sizeof(old_principal)); printf("\nChange password [n] ? "); s_gets(temp, sizeof(temp)-1); if (strcmp("y", temp) && strcmp("Y", temp)) editpw = 0; } /* password */ if (editpw) { #ifdef NOENCRYPTION placebo_read_pw_string(pw_str, sizeof pw_str, "\nNew Password: ", TRUE); #else des_read_pw_string(pw_str, sizeof pw_str, "\nNew Password: ", TRUE); #endif if (!strcmp(pw_str, "RANDOM")) { printf("\nRandom password [y] ? "); s_gets(temp, sizeof(temp)-1); if (!strcmp("n", temp) || !strcmp("N", temp)) { /* no, use literal */ #ifdef NOENCRYPTION bzero(new_key, sizeof(C_Block)); new_key[0] = 127; #else string_to_key(pw_str, new_key); #endif bzero(pw_str, sizeof pw_str); /* "RANDOM" */ } else { #ifdef NOENCRYPTION bzero(new_key, sizeof(C_Block)); new_key[0] = 127; #else random_key(new_key); #endif bzero(pw_str, sizeof pw_str); } } else if (!strcmp(pw_str, "NULL")) { printf("\nNull Key [y] ? "); s_gets(temp, sizeof(temp)-1); if (!strcmp("n", temp) || !strcmp("N", temp)) { /* no, use literal */ #ifdef NOENCRYPTION bzero(new_key, sizeof(C_Block)); new_key[0] = 127; #else string_to_key(pw_str, new_key); #endif bzero(pw_str, sizeof pw_str); /* "NULL" */ } else { principal_data[i].key_low = 0; principal_data[i].key_high = 0; goto null_key; } } else { #ifdef NOENCRYPTION bzero(new_key, sizeof(C_Block)); new_key[0] = 127; #else string_to_key(pw_str,new_key); #endif bzero(pw_str, sizeof pw_str); } /* seal it under the kerberos master key */ kdb_encrypt_key (new_key, new_key, master_key, master_key_schedule, ENCRYPT); bcopy(new_key, &principal_data[i].key_low, 4); bcopy(((long *) new_key) + 1, &principal_data[i].key_high, 4); bzero(new_key, sizeof(new_key)); null_key: /* set master key version */ principal_data[i].kdc_key_ver = (unsigned char) master_key_version; /* bump key version # */ principal_data[i].key_version++; fprintf(stdout, "\nPrincipal's new key version = %d\n", principal_data[i].key_version); fflush(stdout); changed = 1; } /* expiration date */ fprintf(stdout, "Expiration date (enter yyyy-mm-dd) [ %s ] ? ", principal_data[i].exp_date_txt); zaptime(&edate); while (s_gets(temp, sizeof(temp)-1) && ((n = strlen(temp)) > sizeof(principal_data[0].exp_date_txt))) { bad_date: fprintf(stdout, "\07\07Date Invalid\n"); fprintf(stdout, "Expiration date (enter yyyy-mm-dd) [ %s ] ? ", principal_data[i].exp_date_txt); zaptime(&edate); } if (*temp) { if (sscanf(temp, "%d-%d-%d", &edate.tm_year, &edate.tm_mon, &edate.tm_mday) != 3) goto bad_date; (void) strcpy(principal_data[i].exp_date_txt, temp); edate.tm_mon--; /* January is 0, not 1 */ edate.tm_hour = 23; /* nearly midnight at the end of the */ edate.tm_min = 59; /* specified day */ if (!(principal_data[i].exp_date = maketime(&edate, 1))) goto bad_date; changed = 1; } /* maximum lifetime */ fprintf(stdout, "Max ticket lifetime (*5 minutes) [ %d ] ? ", principal_data[i].max_life); while (s_gets(temp, sizeof(temp)-1) && *temp) { if (sscanf(temp, "%d", &temp_long) != 1) goto bad_life; if (temp_long > 255 || (temp_long < 0)) { bad_life: fprintf(stdout, "\07\07Invalid, choose 0-255\n"); fprintf(stdout, "Max ticket lifetime (*5 minutes) [ %d ] ? ", principal_data[i].max_life); continue; } changed = 1; /* dont clobber */ principal_data[i].max_life = (unsigned short) temp_long; break; } /* attributes */ fprintf(stdout, "Attributes [ %d ] ? ", principal_data[i].attributes); while (s_gets(temp, sizeof(temp)-1) && *temp) { if (sscanf(temp, "%d", &temp_long) != 1) goto bad_att; if (temp_long > 65535 || (temp_long < 0)) { bad_att: fprintf(stdout, "\07\07Invalid, choose 0-65535\n"); fprintf(stdout, "Attributes [ %d ] ? ", principal_data[i].attributes); continue; } changed = 1; /* dont clobber */ principal_data[i].attributes = (unsigned short) temp_long; break; } /* * remaining fields -- key versions and mod info, should * not be directly manipulated */ if (changed) { if (kerb_put_principal(&principal_data[i], 1)) { fprintf(stdout, "\nError updating Kerberos database"); } else { fprintf(stdout, "Edit O.K."); } } else { fprintf(stdout, "Unchanged"); } bzero(&principal_data[i].key_low, 4); bzero(&principal_data[i].key_high, 4); fflush(stdout); break; } } if (more) { fprintf(stdout, "\nThere were more tuples found "); fprintf(stdout, "than there were space for"); } return 1; } no_core_dumps() { signal(SIGQUIT, sig_exit); signal(SIGILL, sig_exit); signal(SIGTRAP, sig_exit); signal(SIGIOT, sig_exit); signal(SIGEMT, sig_exit); signal(SIGFPE, sig_exit); signal(SIGBUS, sig_exit); signal(SIGSEGV, sig_exit); signal(SIGSYS, sig_exit); } void sig_exit(sig, code, scp) int sig, code; struct sigcontext *scp; { cleanup(); fprintf(stderr, "\nSignal caught, sig = %d code = %d old pc = 0x%X \nexiting", sig, code, scp->sc_pc); exit(-1); } cleanup() { bzero(master_key, sizeof(master_key)); bzero(session_key, sizeof(session_key)); bzero(master_key_schedule, sizeof(master_key_schedule)); bzero(principal_data, sizeof(principal_data)); bzero(new_key, sizeof(new_key)); bzero(pw_str, sizeof(pw_str)); } Usage() { fprintf(stderr, "Usage: %s [-n]\n", progname); exit(1); }