freebsd-dev/eBones/usr.sbin/kdb_util/kdb_util.c

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/*
* Copyright 1987, 1988 by the Massachusetts Institute of Technology.
* For copying and distribution information, please see the file
* <Copyright.MIT>.
*
* Kerberos database manipulation utility. This program allows you to
* dump a kerberos database to an ascii readable file and load this
* file into the database. Read locking of the database is done during a
* dump operation. NO LOCKING is done during a load operation. Loads
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* should happen with other processes shutdown.
*
* Written July 9, 1987 by Jeffrey I. Schiller
*
* from: kdb_util.c,v 4.4 90/01/09 15:57:20 raeburn Exp $
* $Id: kdb_util.c,v 1.5 1995/08/03 17:15:57 mark Exp $
*/
#if 0
#ifndef lint
static char rcsid[] =
"$Id: kdb_util.c,v 1.5 1995/08/03 17:15:57 mark Exp $";
#endif lint
#endif
#include <errno.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <time.h>
#include <strings.h>
#include <des.h>
#include <krb.h>
#include <sys/file.h>
#include <krb_db.h>
#define TRUE 1
Principal aprinc;
static des_cblock master_key, new_master_key;
static des_key_schedule master_key_schedule, new_master_key_schedule;
#define zaptime(foo) bzero((char *)(foo), sizeof(*(foo)))
char * progname;
void convert_old_format_db (char *db_file, FILE *out);
void convert_new_master_key (char *db_file, FILE *out);
void update_ok_file (char *file_name);
void print_time(FILE *file, unsigned long timeval);
void load_db (char *db_file, FILE *input_file);
int dump_db (char *db_file, FILE *output_file, void (*cv_key)());
int
main(argc, argv)
int argc;
char **argv;
{
FILE *file;
enum {
OP_LOAD,
OP_DUMP,
OP_SLAVE_DUMP,
OP_NEW_MASTER,
OP_CONVERT_OLD_DB,
} op;
char *file_name;
char *prog = argv[0];
char *db_name;
progname = prog;
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if (argc != 3 && argc != 4) {
fprintf(stderr, "Usage: %s operation file-name [database name].\n",
argv[0]);
exit(1);
}
if (argc == 3)
db_name = DBM_FILE;
else
db_name = argv[3];
if (kerb_db_set_name (db_name) != 0) {
perror("Can't open database");
exit(1);
}
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if (!strcmp(argv[1], "load"))
op = OP_LOAD;
else if (!strcmp(argv[1], "dump"))
op = OP_DUMP;
else if (!strcmp(argv[1], "slave_dump"))
op = OP_SLAVE_DUMP;
else if (!strcmp(argv[1], "new_master_key"))
op = OP_NEW_MASTER;
else if (!strcmp(argv[1], "convert_old_db"))
op = OP_CONVERT_OLD_DB;
else {
fprintf(stderr,
"%s: %s is an invalid operation.\n", prog, argv[1]);
fprintf(stderr,
"%s: Valid operations are \"dump\", \"slave_dump\",", argv[0]);
fprintf(stderr,
"\"load\", \"new_master_key\", and \"convert_old_db\".\n");
exit(1);
}
file_name = argv[2];
file = fopen(file_name, op == OP_LOAD ? "r" : "w");
if (file == NULL) {
fprintf(stderr, "%s: Unable to open %s\n", prog, argv[2]);
(void) fflush(stderr);
perror("open");
exit(1);
}
switch (op) {
case OP_DUMP:
if ((dump_db (db_name, file, (void (*)()) 0) == EOF) ||
(fclose(file) == EOF)) {
fprintf(stderr, "error on file %s:", file_name);
perror("");
exit(1);
}
break;
case OP_SLAVE_DUMP:
if ((dump_db (db_name, file, (void (*)()) 0) == EOF) ||
(fclose(file) == EOF)) {
fprintf(stderr, "error on file %s:", file_name);
perror("");
exit(1);
}
update_ok_file (file_name);
break;
case OP_LOAD:
load_db (db_name, file);
break;
case OP_NEW_MASTER:
convert_new_master_key (db_name, file);
printf("Don't forget to do a `kdb_util load %s' to reload the database!\n", file_name);
break;
case OP_CONVERT_OLD_DB:
convert_old_format_db (db_name, file);
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printf("Don't forget to do a `kdb_util load %s' to reload the database!\n", file_name);
break;
}
exit(0);
}
void
clear_secrets ()
{
bzero((char *)master_key, sizeof (des_cblock));
bzero((char *)master_key_schedule, sizeof (Key_schedule));
bzero((char *)new_master_key, sizeof (des_cblock));
bzero((char *)new_master_key_schedule, sizeof (Key_schedule));
}
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/* cv_key is a procedure which takes a principle and changes its key,
either for a new method of encrypting the keys, or a new master key.
if cv_key is null no transformation of key is done (other than net byte
order). */
struct callback_args {
void (*cv_key)();
FILE *output_file;
};
static int dump_db_1(arg, principal)
char *arg;
Principal *principal;
{ /* replace null strings with "*" */
struct callback_args *a = (struct callback_args *)arg;
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if (principal->instance[0] == '\0') {
principal->instance[0] = '*';
principal->instance[1] = '\0';
}
if (principal->mod_name[0] == '\0') {
principal->mod_name[0] = '*';
principal->mod_name[1] = '\0';
}
if (principal->mod_instance[0] == '\0') {
principal->mod_instance[0] = '*';
principal->mod_instance[1] = '\0';
}
if (a->cv_key != NULL) {
(*a->cv_key) (principal);
}
fprintf(a->output_file, "%s %s %d %d %d %d %lx %lx",
principal->name,
principal->instance,
principal->max_life,
principal->kdc_key_ver,
principal->key_version,
principal->attributes,
htonl (principal->key_low),
htonl (principal->key_high));
print_time(a->output_file, principal->exp_date);
print_time(a->output_file, principal->mod_date);
fprintf(a->output_file, " %s %s\n",
principal->mod_name,
principal->mod_instance);
return 0;
}
int
dump_db (db_file, output_file, cv_key)
char *db_file;
FILE *output_file;
void (*cv_key)();
{
struct callback_args a;
a.cv_key = cv_key;
a.output_file = output_file;
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kerb_db_iterate (dump_db_1, (char *)&a);
return fflush(output_file);
}
void
load_db (db_file, input_file)
char *db_file;
FILE *input_file;
{
char exp_date_str[50];
char mod_date_str[50];
int temp1, temp2, temp3;
long time_explode();
int code;
char *temp_db_file;
temp1 = strlen(db_file)+2;
temp_db_file = malloc (temp1);
strcpy(temp_db_file, db_file);
strcat(temp_db_file, "~");
/* Create the database */
if ((code = kerb_db_create(temp_db_file)) != 0) {
fprintf(stderr, "Couldn't create temp database %s: %s\n",
temp_db_file, sys_errlist[code]);
exit(1);
}
kerb_db_set_name(temp_db_file);
for (;;) { /* explicit break on eof from fscanf */
bzero((char *)&aprinc, sizeof(aprinc));
if (fscanf(input_file,
"%s %s %d %d %d %hd %lx %lx %s %s %s %s\n",
aprinc.name,
aprinc.instance,
&temp1,
&temp2,
&temp3,
&aprinc.attributes,
&aprinc.key_low,
&aprinc.key_high,
exp_date_str,
mod_date_str,
aprinc.mod_name,
aprinc.mod_instance) == EOF)
break;
aprinc.key_low = ntohl (aprinc.key_low);
aprinc.key_high = ntohl (aprinc.key_high);
aprinc.max_life = (unsigned char) temp1;
aprinc.kdc_key_ver = (unsigned char) temp2;
aprinc.key_version = (unsigned char) temp3;
aprinc.exp_date = time_explode(exp_date_str);
aprinc.mod_date = time_explode(mod_date_str);
if (aprinc.instance[0] == '*')
aprinc.instance[0] = '\0';
if (aprinc.mod_name[0] == '*')
aprinc.mod_name[0] = '\0';
if (aprinc.mod_instance[0] == '*')
aprinc.mod_instance[0] = '\0';
if (kerb_db_put_principal(&aprinc, 1) != 1) {
fprintf(stderr, "Couldn't store %s.%s: %s; load aborted\n",
aprinc.name, aprinc.instance,
sys_errlist[errno]);
exit(1);
};
}
if ((code = kerb_db_rename(temp_db_file, db_file)) != 0)
perror("database rename failed");
(void) fclose(input_file);
free(temp_db_file);
}
void
print_time(file, timeval)
FILE *file;
unsigned long timeval;
{
struct tm *tm;
struct tm *gmtime();
tm = gmtime((long *)&timeval);
fprintf(file, " %04d%02d%02d%02d%02d",
tm->tm_year < 1900 ? tm->tm_year + 1900: tm->tm_year,
tm->tm_mon + 1,
tm->tm_mday,
tm->tm_hour,
tm->tm_min);
}
/*ARGSUSED*/
void
update_ok_file (file_name)
char *file_name;
{
/* handle slave locking/failure stuff */
char *file_ok;
int fd;
static char ok[]=".dump_ok";
if ((file_ok = (char *)malloc(strlen(file_name) + strlen(ok) + 1))
== NULL) {
fprintf(stderr, "kdb_util: out of memory.\n");
(void) fflush (stderr);
perror ("malloc");
exit (1);
}
strcpy(file_ok, file_name);
strcat(file_ok, ok);
if ((fd = open(file_ok, O_WRONLY|O_CREAT|O_TRUNC, 0400)) < 0) {
fprintf(stderr, "Error creating 'ok' file, '%s'", file_ok);
perror("");
(void) fflush (stderr);
exit (1);
}
free(file_ok);
close(fd);
}
void
convert_key_new_master (p)
Principal *p;
{
des_cblock key;
/* leave null keys alone */
if ((p->key_low == 0) && (p->key_high == 0)) return;
/* move current key to des_cblock for encryption, special case master key
since that's changing */
if ((strncmp (p->name, KERB_M_NAME, ANAME_SZ) == 0) &&
(strncmp (p->instance, KERB_M_INST, INST_SZ) == 0)) {
bcopy((char *)new_master_key, (char *) key, sizeof (des_cblock));
(p->key_version)++;
} else {
bcopy((char *)&(p->key_low), (char *)key, 4);
bcopy((char *)&(p->key_high), (char *) (((long *) key) + 1), 4);
kdb_encrypt_key (key, key, master_key, master_key_schedule, DECRYPT);
}
kdb_encrypt_key (key, key, new_master_key, new_master_key_schedule, ENCRYPT);
bcopy((char *)key, (char *)&(p->key_low), 4);
bcopy((char *)(((long *) key) + 1), (char *)&(p->key_high), 4);
bzero((char *)key, sizeof (key)); /* a little paranoia ... */
(p->kdc_key_ver)++;
}
void
convert_new_master_key (db_file, out)
char *db_file;
FILE *out;
{
printf ("\n\nEnter the CURRENT master key.");
if (kdb_get_master_key (TRUE, master_key, master_key_schedule) != 0) {
fprintf (stderr, "get_master_key: Couldn't get master key.\n");
clear_secrets ();
exit (-1);
}
if (kdb_verify_master_key (master_key, master_key_schedule, stderr) < 0) {
clear_secrets ();
exit (-1);
}
printf ("\n\nNow enter the NEW master key. Do not forget it!!");
if (kdb_get_master_key (TRUE, new_master_key, new_master_key_schedule) != 0) {
fprintf (stderr, "get_master_key: Couldn't get new master key.\n");
clear_secrets ();
exit (-1);
}
dump_db (db_file, out, convert_key_new_master);
}
void
convert_key_old_db (p)
Principal *p;
{
des_cblock key;
/* leave null keys alone */
if ((p->key_low == 0) && (p->key_high == 0)) return;
bcopy((char *)&(p->key_low), (char *)key, 4);
bcopy((char *)&(p->key_high), (char *)(((long *) key) + 1), 4);
#ifndef NOENCRYPTION
des_pcbc_encrypt((des_cblock *)key,(des_cblock *)key,
(long)sizeof(des_cblock),master_key_schedule,
(des_cblock *)master_key_schedule,DECRYPT);
#endif
/* make new key, new style */
kdb_encrypt_key (key, key, master_key, master_key_schedule, ENCRYPT);
bcopy((char *)key, (char *)&(p->key_low), 4);
bcopy((char *)(((long *) key) + 1), (char *)&(p->key_high), 4);
bzero((char *)key, sizeof (key)); /* a little paranoia ... */
}
void
convert_old_format_db (db_file, out)
char *db_file;
FILE *out;
{
des_cblock key_from_db;
Principal principal_data[1];
int n, more;
if (kdb_get_master_key (TRUE, master_key, master_key_schedule) != 0L) {
fprintf (stderr, "verify_master_key: Couldn't get master key.\n");
clear_secrets();
exit (-1);
}
/* can't call kdb_verify_master_key because this is an old style db */
/* lookup the master key version */
n = kerb_get_principal(KERB_M_NAME, KERB_M_INST, principal_data,
1 /* only one please */, &more);
if ((n != 1) || more) {
fprintf(stderr, "verify_master_key: "
"Kerberos error on master key lookup, %d found.\n",
n);
exit (-1);
}
/* set up the master key */
fprintf(stderr, "Current Kerberos master key version is %d.\n",
principal_data[0].kdc_key_ver);
/*
* now use the master key to decrypt (old style) the key in the db, had better
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* be the same!
*/
bcopy((char *)&principal_data[0].key_low, (char *)key_from_db, 4);
bcopy((char *)&principal_data[0].key_high,
(char *)(((long *) key_from_db) + 1), 4);
#ifndef NOENCRYPTION
des_pcbc_encrypt((des_cblock *)key_from_db,(des_cblock *)key_from_db,
(long)sizeof(key_from_db),master_key_schedule,
(des_cblock *)master_key_schedule,DECRYPT);
#endif
/* the decrypted database key had better equal the master key */
n = bcmp((char *) master_key, (char *) key_from_db,
sizeof(master_key));
bzero((char *)key_from_db, sizeof(key_from_db));
if (n) {
fprintf(stderr, "\n\07\07verify_master_key: Invalid master key, ");
fprintf(stderr, "does not match database.\n");
exit (-1);
}
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fprintf(stderr, "Master key verified.\n");
(void) fflush(stderr);
dump_db (db_file, out, convert_key_old_db);
}
long
time_explode(cp)
register char *cp;
{
char wbuf[5];
struct tm tp;
long maketime();
int local;
zaptime(&tp); /* clear out the struct */
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if (strlen(cp) > 10) { /* new format */
(void) strncpy(wbuf, cp, 4);
wbuf[4] = 0;
tp.tm_year = atoi(wbuf);
cp += 4; /* step over the year */
local = 0; /* GMT */
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} else { /* old format: local time,
year is 2 digits, assuming 19xx */
wbuf[0] = *cp++;
wbuf[1] = *cp++;
wbuf[2] = 0;
tp.tm_year = 1900 + atoi(wbuf);
local = 1; /* local */
}
wbuf[0] = *cp++;
wbuf[1] = *cp++;
wbuf[2] = 0;
tp.tm_mon = atoi(wbuf)-1;
wbuf[0] = *cp++;
wbuf[1] = *cp++;
tp.tm_mday = atoi(wbuf);
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wbuf[0] = *cp++;
wbuf[1] = *cp++;
tp.tm_hour = atoi(wbuf);
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wbuf[0] = *cp++;
wbuf[1] = *cp++;
tp.tm_min = atoi(wbuf);
return(maketime(&tp, local));
}