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freebsd/crypto/kerberosIV/admin/kdb_util.c
Mark Murray 03656ac1b0 Initial import of KTH eBones. This has been cleaned up to only include
the "core" Kerberos functionality. The rest of the userland will get their
own changes later.
1997-09-04 06:04:33 +00:00

497 lines
13 KiB
C

/*
* Copyright 1987, 1988 by the Massachusetts Institute of Technology.
*
* For copying and distribution information, please see the file
* <mit-copyright.h>.
*
* 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
* should happen with other processes shutdown.
*
* Written July 9, 1987 by Jeffrey I. Schiller
*/
#include "adm_locl.h"
RCSID("$Id: kdb_util.c,v 1.35 1997/05/07 00:57:45 assar Exp $");
static des_cblock master_key, new_master_key;
static des_key_schedule master_key_schedule, new_master_key_schedule;
#define zaptime(foo) memset((foo), 0, sizeof(*(foo)))
/* 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)(Principal *);
FILE *output_file;
};
static void
print_time(FILE *file, time_t timeval)
{
struct tm *tm;
tm = gmtime(&timeval);
fprintf(file, " %04d%02d%02d%02d%02d",
tm->tm_year + 1900,
tm->tm_mon + 1,
tm->tm_mday,
tm->tm_hour,
tm->tm_min);
}
static long
time_explode(char *cp)
{
char wbuf[5];
struct tm tp;
int local;
zaptime(&tp); /* clear out the struct */
if (strlen(cp) > 10) { /* new format */
strncpy(wbuf, cp, 4);
wbuf[4] = 0;
tp.tm_year = atoi(wbuf) - 1900;
cp += 4; /* step over the year */
local = 0; /* GMT */
} else { /* old format: local time,
year is 2 digits, assuming 19xx */
wbuf[0] = *cp++;
wbuf[1] = *cp++;
wbuf[2] = 0;
tp.tm_year = 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);
wbuf[0] = *cp++;
wbuf[1] = *cp++;
tp.tm_hour = atoi(wbuf);
wbuf[0] = *cp++;
wbuf[1] = *cp++;
tp.tm_min = atoi(wbuf);
return(tm2time(tp, local));
}
static int
dump_db_1(void *arg, Principal *principal)
{ /* replace null strings with "*" */
struct callback_args *a = (struct callback_args *)arg;
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 %x %x",
principal->name,
principal->instance,
principal->max_life,
principal->kdc_key_ver,
principal->key_version,
principal->attributes,
(int)htonl (principal->key_low),
(int)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;
}
static int
dump_db (char *db_file, FILE *output_file, void (*cv_key) (Principal *))
{
struct callback_args a;
a.cv_key = cv_key;
a.output_file = output_file;
kerb_db_iterate ((k_iter_proc_t)dump_db_1, &a);
return fflush(output_file);
}
static int
add_file(void *db, FILE *file)
{
int ret;
int lineno = 0;
char line[1024];
unsigned long key[2]; /* yes, long */
Principal pr;
char exp_date[64], mod_date[64];
int life, kkvno, kvno;
while(1){
memset(&pr, 0, sizeof(pr));
errno = 0;
if(fgets(line, sizeof(line), file) == NULL){
if(errno != 0)
err (1, "fgets");
break;
}
lineno++;
ret = sscanf(line, "%s %s %d %d %d %hd %lx %lx %s %s %s %s",
pr.name, pr.instance,
&life, &kkvno, &kvno,
&pr.attributes,
&key[0], &key[1],
exp_date, mod_date,
pr.mod_name, pr.mod_instance);
if(ret != 12){
warnx("Line %d malformed (ignored)", lineno);
continue;
}
pr.key_low = ntohl (key[0]);
pr.key_high = ntohl (key[1]);
pr.max_life = life;
pr.kdc_key_ver = kkvno;
pr.key_version = kvno;
pr.exp_date = time_explode(exp_date);
pr.mod_date = time_explode(mod_date);
if (pr.instance[0] == '*')
pr.instance[0] = 0;
if (pr.mod_name[0] == '*')
pr.mod_name[0] = 0;
if (pr.mod_instance[0] == '*')
pr.mod_instance[0] = 0;
if (kerb_db_update(db, &pr, 1) != 1) {
warn ("store %s.%s aborted",
pr.name, pr.instance);
return 1;
}
}
return 0;
}
static void
load_db (char *db_file, FILE *input_file)
{
long *db;
int temp1;
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)
err (1, "creating temp database %s", temp_db_file);
kerb_db_set_name(temp_db_file);
db = kerb_db_begin_update();
if (db == NULL)
err (1, "opening temp database %s", temp_db_file);
if(add_file(db, input_file))
errx (1, "Load aborted");
kerb_db_end_update(db);
if ((code = kerb_db_rename(temp_db_file, db_file)) != 0)
warn("database rename failed");
fclose(input_file);
free(temp_db_file);
}
static void
merge_db(char *db_file, FILE *input_file)
{
void *db;
db = kerb_db_begin_update();
if(db == NULL)
err (1, "Couldn't open database");
if(add_file(db, input_file))
errx (1, "Merge aborted");
kerb_db_end_update(db);
}
static void
update_ok_file (char *file_name)
{
/* handle slave locking/failure stuff */
char *file_ok;
int fd;
static char ok[]=".dump_ok";
asprintf (&file_ok, "%s%s", file_name, ok);
if (file_ok == NULL)
errx (1, "out of memory");
if ((fd = open(file_ok, O_WRONLY|O_CREAT|O_TRUNC, 0400)) < 0)
err (1, "Error creating %s", file_ok);
free(file_ok);
close(fd);
}
static void
convert_key_new_master (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)) {
memcpy (key, new_master_key, sizeof(des_cblock));
(p->key_version)++;
} else {
copy_to_key(&p->key_low, &p->key_high, key);
kdb_encrypt_key (&key, &key, &master_key, master_key_schedule, DES_DECRYPT);
}
kdb_encrypt_key (&key, &key, &new_master_key, new_master_key_schedule, DES_ENCRYPT);
copy_from_key(key, &(p->key_low), &(p->key_high));
memset(key, 0, sizeof (key)); /* a little paranoia ... */
(p->kdc_key_ver)++;
}
static void
clear_secrets (void)
{
memset(master_key, 0, sizeof (des_cblock));
memset(master_key_schedule, 0, sizeof (des_key_schedule));
memset(new_master_key, 0, sizeof (des_cblock));
memset(new_master_key_schedule, 0, sizeof (des_key_schedule));
}
static void
convert_new_master_key (char *db_file, FILE *out)
{
#ifdef RANDOM_MKEY
errx (1, "Sorry, this function is not available with "
"the new master key scheme.");
#else
printf ("\n\nEnter the CURRENT master key.");
if (kdb_get_master_key (KDB_GET_PROMPT, &master_key,
master_key_schedule) != 0) {
clear_secrets ();
errx (1, "Couldn't get master key.");
}
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 (KDB_GET_TWICE, &new_master_key,
new_master_key_schedule) != 0) {
clear_secrets ();
errx (1, "Couldn't get new master key.");
}
dump_db (db_file, out, convert_key_new_master);
{
char fname[128];
snprintf(fname, sizeof(fname), "%s.new", MKEYFILE);
kdb_kstash(&new_master_key, fname);
}
#endif /* RANDOM_MKEY */
}
static void
convert_key_old_db (Principal *p)
{
des_cblock key;
/* leave null keys alone */
if ((p->key_low == 0) && (p->key_high == 0)) return;
copy_to_key(&p->key_low, &p->key_high, key);
#ifndef NOENCRYPTION
des_pcbc_encrypt((des_cblock *)key,(des_cblock *)key,
(long)sizeof(des_cblock),master_key_schedule,
(des_cblock *)master_key_schedule, DES_DECRYPT);
#endif
/* make new key, new style */
kdb_encrypt_key (&key, &key, &master_key, master_key_schedule, DES_ENCRYPT);
copy_from_key(key, &(p->key_low), &(p->key_high));
memset(key, 0, sizeof (key)); /* a little paranoia ... */
}
static void
convert_old_format_db (char *db_file, FILE *out)
{
des_cblock key_from_db;
Principal principal_data[1];
int n, more;
if (kdb_get_master_key (KDB_GET_PROMPT, &master_key,
master_key_schedule) != 0L) {
clear_secrets();
errx (1, "Couldn't get master key.");
}
/* 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)
errx (1, "verify_master_key: Kerberos error on master key lookup, %d found.\n", n);
/* 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
* be the same!
*/
copy_to_key(&principal_data[0].key_low,
&principal_data[0].key_high,
key_from_db);
#ifndef NOENCRYPTION
des_pcbc_encrypt(&key_from_db,&key_from_db,(long)sizeof(key_from_db),
master_key_schedule,(des_cblock *)master_key_schedule, DES_DECRYPT);
#endif
/* the decrypted database key had better equal the master key */
n = memcmp(master_key, key_from_db, sizeof(master_key));
memset(key_from_db, 0, 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);
}
fprintf(stderr, "Master key verified.\n");
dump_db (db_file, out, convert_key_old_db);
}
int
main(int argc, char **argv)
{
int ret;
FILE *file;
enum {
OP_LOAD,
OP_MERGE,
OP_DUMP,
OP_SLAVE_DUMP,
OP_NEW_MASTER,
OP_CONVERT_OLD_DB
} op;
char *file_name;
char *db_name;
set_progname (argv[0]);
if (argc != 3 && argc != 4) {
fprintf(stderr, "Usage: %s operation file [database name].\n",
argv[0]);
fprintf(stderr, "Operation is one of: "
"load, merge, dump, slave_dump, new_master_key, "
"convert_old_db\n");
exit(1);
}
if (argc == 3)
db_name = DBM_FILE;
else
db_name = argv[3];
ret = kerb_db_set_name (db_name);
/* this makes starting slave servers ~14.3 times easier */
if(ret && strcmp(argv[1], "load") == 0)
ret = kerb_db_create (db_name);
if(ret)
err (1, "Can't open database");
if (!strcmp(argv[1], "load"))
op = OP_LOAD;
else if (!strcmp(argv[1], "merge"))
op = OP_MERGE;
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 {
warnx ("%s is an invalid operation.", argv[1]);
warnx ("Valid operations are \"load\", \"merge\", "
"\"dump\", \"slave_dump\", \"new_master_key\", "
"and \"convert_old_db\"");
return 1;
}
file_name = argv[2];
file = fopen(file_name, (op == OP_LOAD || op == OP_MERGE) ? "r" : "w");
if (file == NULL)
err (1, "open %s", argv[2]);
switch (op) {
case OP_DUMP:
if ((dump_db (db_name, file, (void (*)(Principal *)) 0) == EOF) ||
(fclose(file) == EOF))
err (1, "%s", file_name);
break;
case OP_SLAVE_DUMP:
if ((dump_db (db_name, file, (void (*)(Principal *)) 0) == EOF) ||
(fclose(file) == EOF))
err (1, "%s", file_name);
update_ok_file (file_name);
break;
case OP_LOAD:
load_db (db_name, file);
break;
case OP_MERGE:
merge_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);
printf("Don't forget to do a `kdb_util load %s' to reload the database!\n", file_name);
break;
}
return 0;
}