codebefore
stringlengths 15
561k
| codeafter
stringlengths 16
4.94M
|
|---|---|
_dl_dst_count (const char *name, int is_path)
{
size_t cnt = 0;
do
{
size_t len = 1;
/* $ORIGIN is not expanded for SUID/GUID programs. */
if ((((!__libc_enable_secure
&& strncmp (&name[1], "ORIGIN", 6) == 0 && (len = 7) != 0)
|| (strncmp (&name[1], "PLATFORM", 8) == 0 && (len = 9) != 0))
&& (name[len] == '\0' || name[len] == '/'
|| (is_path && name[len] == ':')))
|| (name[1] == '{'
&& ((!__libc_enable_secure
&& strncmp (&name[2], "ORIGIN}", 7) == 0 && (len = 9) != 0)
|| (strncmp (&name[2], "PLATFORM}", 9) == 0
&& (len = 11) != 0))))
++cnt;
name = strchr (name + len, '$');
}
while (name != NULL);
return cnt;
}
|
_dl_dst_count (const char *name, int is_path)
{
const char *const start = name;
size_t cnt = 0;
do
{
size_t len = 1;
/* $ORIGIN is not expanded for SUID/GUID programs.
Note that it is no bug that the strings in the first two `strncmp'
calls are longer than the sequence which is actually tested. */
if ((((strncmp (&name[1], "ORIGIN}", 6) == 0
&& (!__libc_enable_secure
|| ((name[7] == '\0' || (is_path && name[7] == ':'))
&& (name == start || (is_path && name[-1] == ':'))))
&& (len = 7) != 0)
|| (strncmp (&name[1], "PLATFORM}", 8) == 0 && (len = 9) != 0))
&& (name[len] == '\0' || name[len] == '/'
|| (is_path && name[len] == ':')))
|| (name[1] == '{'
&& ((strncmp (&name[2], "ORIGIN}", 7) == 0
&& (!__libc_enable_secure
|| ((name[9] == '\0' || (is_path && name[9] == ':'))
&& (name == start || (is_path && name[-1] == ':'))))
&& (len = 9) != 0)
|| (strncmp (&name[2], "PLATFORM}", 9) == 0
&& (len = 11) != 0))))
++cnt;
name = strchr (name + len, '$');
}
while (name != NULL);
return cnt;
}
|
expand_dynamic_string_token (struct link_map *l, const char *s)
{
/* We make two runs over the string. First we determine how large the
resulting string is and then we copy it over. Since this is now
frequently executed operation we are looking here not for performance
but rather for code size. */
size_t cnt;
size_t total;
char *result;
/* Determine the nubmer of DST elements. */
cnt = DL_DST_COUNT (s, 1);
/* If we do not have to replace anything simply copy the string. */
if (cnt == 0)
return local_strdup (s);
/* Determine the length of the substituted string. */
total = DL_DST_REQUIRED (l, s, strlen (s), cnt);
/* Allocate the necessary memory. */
result = (char *) malloc (total + 1);
if (result == NULL)
return NULL;
return DL_DST_SUBSTITUTE (l, s, result, 1);
}
|
expand_dynamic_string_token (struct link_map *l, const char *s)
{
/* We make two runs over the string. First we determine how large the
resulting string is and then we copy it over. Since this is now
frequently executed operation we are looking here not for performance
but rather for code size. */
size_t cnt;
size_t total;
char *result;
/* Determine the number of DST elements. */
cnt = DL_DST_COUNT (s, 1);
/* If we do not have to replace anything simply copy the string. */
if (cnt == 0)
return local_strdup (s);
/* Determine the length of the substituted string. */
total = DL_DST_REQUIRED (l, s, strlen (s), cnt);
/* Allocate the necessary memory. */
result = (char *) malloc (total + 1);
if (result == NULL)
return NULL;
return DL_DST_SUBSTITUTE (l, s, result, 1);
}
|
_dl_dst_substitute (struct link_map *l, const char *name, char *result,
int is_path)
{
char *last_elem, *wp;
/* Now fill the result path. While copying over the string we keep
track of the start of the last path element. When we come accross
a DST we copy over the value or (if the value is not available)
leave the entire path element out. */
last_elem = wp = result;
do
{
if (*name == '$')
{
const char *repl;
size_t len;
if ((((strncmp (&name[1], "ORIGIN", 6) == 0 && (len = 7) != 0)
|| (strncmp (&name[1], "PLATFORM", 8) == 0 && (len = 9) != 0))
&& (name[len] == '\0' || name[len] == '/'
|| (is_path && name[len] == ':')))
|| (name[1] == '{'
&& ((strncmp (&name[2], "ORIGIN}", 7) == 0 && (len = 9) != 0)
|| (strncmp (&name[2], "PLATFORM}", 9) == 0
&& (len = 11) != 0))))
{
repl = ((len == 7 || name[2] == 'O')
? (__libc_enable_secure ? NULL : l->l_origin)
: _dl_platform);
if (repl != NULL && repl != (const char *) -1)
{
wp = __stpcpy (wp, repl);
name += len;
}
else
{
/* We cannot use this path element, the value of the
replacement is unknown. */
wp = last_elem;
name += len;
while (*name != '\0' && (!is_path || *name != ':'))
++name;
}
}
else
/* No DST we recognize. */
*wp++ = *name++;
}
else if (is_path && *name == ':')
{
*wp++ = *name++;
last_elem = wp;
}
else
*wp++ = *name++;
}
while (*name != '\0');
*wp = '\0';
return result;
}
|
_dl_dst_substitute (struct link_map *l, const char *name, char *result,
int is_path)
{
const char *const start = name;
char *last_elem, *wp;
/* Now fill the result path. While copying over the string we keep
track of the start of the last path element. When we come accross
a DST we copy over the value or (if the value is not available)
leave the entire path element out. */
last_elem = wp = result;
do
{
if (*name == '$')
{
const char *repl;
size_t len;
/* Note that it is no bug that the strings in the first two `strncmp'
calls are longer than the sequence which is actually tested. */
if ((((strncmp (&name[1], "ORIGIN}", 6) == 0 && (len = 7) != 0)
|| (strncmp (&name[1], "PLATFORM}", 8) == 0 && (len = 9) != 0))
&& (name[len] == '\0' || name[len] == '/'
|| (is_path && name[len] == ':')))
|| (name[1] == '{'
&& ((strncmp (&name[2], "ORIGIN}", 7) == 0 && (len = 9) != 0)
|| (strncmp (&name[2], "PLATFORM}", 9) == 0
&& (len = 11) != 0))))
{
repl = ((len == 7 || name[2] == 'O')
? (__libc_enable_secure
&& ((name[len] != '\0'
&& (!is_path || name[len] != ':'))
|| (name != start
&& (!is_path || name[-1] != ':')))
? NULL : l->l_origin)
: _dl_platform);
if (repl != NULL && repl != (const char *) -1)
{
wp = __stpcpy (wp, repl);
name += len;
}
else
{
/* We cannot use this path element, the value of the
replacement is unknown. */
wp = last_elem;
name += len;
while (*name != '\0' && (!is_path || *name != ':'))
++name;
}
}
else
/* No DST we recognize. */
*wp++ = *name++;
}
else if (is_path && *name == ':')
{
*wp++ = *name++;
last_elem = wp;
}
else
*wp++ = *name++;
}
while (*name != '\0');
*wp = '\0';
return result;
}
|
vsyslog(pri, fmt, ap)
int pri;
register const char *fmt;
va_list ap;
{
struct tm now_tm;
time_t now;
int fd;
FILE *f;
char *buf = 0;
size_t bufsize = 0;
size_t prioff, msgoff;
struct sigaction action, oldaction;
struct sigaction *oldaction_ptr = NULL;
int sigpipe;
int saved_errno = errno;
#define INTERNALLOG LOG_ERR|LOG_CONS|LOG_PERROR|LOG_PID
/* Check for invalid bits. */
if (pri & ~(LOG_PRIMASK|LOG_FACMASK)) {
syslog(INTERNALLOG,
"syslog: unknown facility/priority: %x", pri);
pri &= LOG_PRIMASK|LOG_FACMASK;
}
/* Check priority against setlogmask values. */
if ((LOG_MASK (LOG_PRI (pri)) & LogMask) == 0)
return;
/* Set default facility if none specified. */
if ((pri & LOG_FACMASK) == 0)
pri |= LogFacility;
/* Build the message in a memory-buffer stream. */
f = open_memstream (&buf, &bufsize);
prioff = fprintf (f, "<%d>", pri);
(void) time (&now);
#ifdef USE_IN_LIBIO
f->_IO_write_ptr += strftime (f->_IO_write_ptr,
f->_IO_write_end - f->_IO_write_ptr,
"%h %e %T ",
__localtime_r (&now, &now_tm));
#else
f->__bufp += strftime (f->__bufp, f->__put_limit - f->__bufp,
"%h %e %T ", __localtime_r (&now, &now_tm));
#endif
msgoff = ftell (f);
if (LogTag == NULL)
LogTag = __progname;
if (LogTag != NULL)
fputs_unlocked (LogTag, f);
if (LogStat & LOG_PID)
fprintf (f, "[%d]", __getpid ());
if (LogTag != NULL)
putc_unlocked (':', f), putc_unlocked (' ', f);
/* Restore errno for %m format. */
__set_errno (saved_errno);
/* We have the header. Print the user's format into the buffer. */
vfprintf (f, fmt, ap);
/* Close the memory stream; this will finalize the data
into a malloc'd buffer in BUF. */
fclose (f);
/* Output to stderr if requested. */
if (LogStat & LOG_PERROR) {
struct iovec iov[2];
register struct iovec *v = iov;
v->iov_base = buf + msgoff;
v->iov_len = bufsize - msgoff;
++v;
v->iov_base = (char *) "\n";
v->iov_len = 1;
(void)__writev(STDERR_FILENO, iov, 2);
}
/* Prepare for multiple users. We have to take care: open and
write are cancellation points. */
__libc_cleanup_region_start ((void (*) (void *)) cancel_handler,
&oldaction_ptr);
__libc_lock_lock (syslog_lock);
/* Prepare for a broken connection. */
memset (&action, 0, sizeof (action));
action.sa_handler = sigpipe_handler;
sigemptyset (&action.sa_mask);
sigpipe = __sigaction (SIGPIPE, &action, &oldaction);
if (sigpipe == 0)
oldaction_ptr = &oldaction;
/* Get connected, output the message to the local logger. */
if (!connected)
openlog_internal(LogTag, LogStat | LOG_NDELAY, 0);
/* If we have a SOCK_STREAM connection, also send ASCII NUL as
a record terminator. */
if (LogType == SOCK_STREAM)
++bufsize;
if (!connected || __send(LogFile, buf, bufsize, 0) < 0)
{
closelog_internal (); /* attempt re-open next time */
/*
* Output the message to the console; don't worry about blocking,
* if console blocks everything will. Make sure the error reported
* is the one from the syslogd failure.
*/
if (LogStat & LOG_CONS &&
(fd = __open(_PATH_CONSOLE, O_WRONLY|O_NOCTTY, 0)) >= 0)
{
dprintf (fd, "%s\r\n", buf + msgoff);
(void)__close(fd);
}
}
if (sigpipe == 0)
__sigaction (SIGPIPE, &oldaction, (struct sigaction *) NULL);
/* End of critical section. */
__libc_cleanup_region_end (0);
__libc_lock_unlock (syslog_lock);
free (buf);
}
|
vsyslog(pri, fmt, ap)
int pri;
register const char *fmt;
va_list ap;
{
struct tm now_tm;
time_t now;
int fd;
FILE *f;
char *buf = 0;
size_t bufsize = 0;
size_t prioff, msgoff;
struct sigaction action, oldaction;
struct sigaction *oldaction_ptr = NULL;
int sigpipe;
int saved_errno = errno;
#define INTERNALLOG LOG_ERR|LOG_CONS|LOG_PERROR|LOG_PID
/* Check for invalid bits. */
if (pri & ~(LOG_PRIMASK|LOG_FACMASK)) {
syslog(INTERNALLOG,
"syslog: unknown facility/priority: %x", pri);
pri &= LOG_PRIMASK|LOG_FACMASK;
}
/* Check priority against setlogmask values. */
if ((LOG_MASK (LOG_PRI (pri)) & LogMask) == 0)
return;
/* Set default facility if none specified. */
if ((pri & LOG_FACMASK) == 0)
pri |= LogFacility;
/* Build the message in a memory-buffer stream. */
f = open_memstream (&buf, &bufsize);
prioff = fprintf (f, "<%d>", pri);
(void) time (&now);
#ifdef USE_IN_LIBIO
f->_IO_write_ptr += strftime (f->_IO_write_ptr,
f->_IO_write_end - f->_IO_write_ptr,
"%h %e %T ",
__localtime_r (&now, &now_tm));
#else
f->__bufp += strftime (f->__bufp, f->__put_limit - f->__bufp,
"%h %e %T ", __localtime_r (&now, &now_tm));
#endif
msgoff = ftell (f);
if (LogTag == NULL)
LogTag = __progname;
if (LogTag != NULL)
fputs_unlocked (LogTag, f);
if (LogStat & LOG_PID)
fprintf (f, "[%d]", __getpid ());
if (LogTag != NULL)
putc_unlocked (':', f), putc_unlocked (' ', f);
/* Restore errno for %m format. */
__set_errno (saved_errno);
/* We have the header. Print the user's format into the buffer. */
vfprintf (f, fmt, ap);
/* Close the memory stream; this will finalize the data
into a malloc'd buffer in BUF. */
fclose (f);
/* Output to stderr if requested. */
if (LogStat & LOG_PERROR) {
struct iovec iov[2];
register struct iovec *v = iov;
v->iov_base = buf + msgoff;
v->iov_len = bufsize - msgoff;
/* Append a newline if necessary. */
if (buf[bufsize - 1] != '\n')
{
++v;
v->iov_base = (char *) "\n";
v->iov_len = 1;
}
(void)__writev(STDERR_FILENO, iov, v - iov + 1);
}
/* Prepare for multiple users. We have to take care: open and
write are cancellation points. */
__libc_cleanup_region_start ((void (*) (void *)) cancel_handler,
&oldaction_ptr);
__libc_lock_lock (syslog_lock);
/* Prepare for a broken connection. */
memset (&action, 0, sizeof (action));
action.sa_handler = sigpipe_handler;
sigemptyset (&action.sa_mask);
sigpipe = __sigaction (SIGPIPE, &action, &oldaction);
if (sigpipe == 0)
oldaction_ptr = &oldaction;
/* Get connected, output the message to the local logger. */
if (!connected)
openlog_internal(LogTag, LogStat | LOG_NDELAY, 0);
/* If we have a SOCK_STREAM connection, also send ASCII NUL as
a record terminator. */
if (LogType == SOCK_STREAM)
++bufsize;
if (!connected || __send(LogFile, buf, bufsize, 0) < 0)
{
closelog_internal (); /* attempt re-open next time */
/*
* Output the message to the console; don't worry about blocking,
* if console blocks everything will. Make sure the error reported
* is the one from the syslogd failure.
*/
if (LogStat & LOG_CONS &&
(fd = __open(_PATH_CONSOLE, O_WRONLY|O_NOCTTY, 0)) >= 0)
{
dprintf (fd, "%s\r\n", buf + msgoff);
(void)__close(fd);
}
}
if (sigpipe == 0)
__sigaction (SIGPIPE, &oldaction, (struct sigaction *) NULL);
/* End of critical section. */
__libc_cleanup_region_end (0);
__libc_lock_unlock (syslog_lock);
free (buf);
}
|
init_syntax_once ()
{
register int c;
static int done;
if (done)
return;
bzero (re_syntax_table, sizeof re_syntax_table);
for (c = 'a'; c <= 'z'; c++)
re_syntax_table[c] = Sword;
for (c = 'A'; c <= 'Z'; c++)
re_syntax_table[c] = Sword;
for (c = '0'; c <= '9'; c++)
re_syntax_table[c] = Sword;
re_syntax_table['_'] = Sword;
done = 1;
}
|
init_syntax_once ()
{
register int c;
static int done = 0;
if (done)
return;
bzero (re_syntax_table, sizeof re_syntax_table);
for (c = 0; c < CHAR_SET_SIZE; ++c)
if (ISALNUM (c))
re_syntax_table[c] = Sword;
re_syntax_table['_'] = Sword;
done = 1;
}
|
getlogin_r (name, name_len)
char *name;
size_t name_len;
{
char tty_pathname[2 + 2 * NAME_MAX];
char *real_tty_path = tty_pathname;
int result = 0;
struct utmp *ut, line, buffer;
{
int d = __open ("/dev/tty", 0);
if (d < 0)
return errno;
result = __ttyname_r (d, real_tty_path, sizeof (tty_pathname));
(void) __close (d);
if (result != 0)
{
__set_errno (result);
return result;
}
}
real_tty_path += 5; /* Remove "/dev/". */
__setutent ();
strncpy (line.ut_line, real_tty_path, sizeof line.ut_line);
if (__getutline_r (&line, &buffer, &ut) < 0)
{
if (errno == ESRCH)
/* The caller expects ENOENT if nothing is found. */
result = ENOENT;
else
result = errno;
}
else
{
size_t needed = strlen (ut->ut_line) + 1;
if (needed < name_len)
{
__set_errno (ERANGE);
result = ERANGE;
}
else
{
memcpy (name, ut->ut_line, needed);
result = 0;
}
}
__endutent ();
return result;
}
|
getlogin_r (name, name_len)
char *name;
size_t name_len;
{
char tty_pathname[2 + 2 * NAME_MAX];
char *real_tty_path = tty_pathname;
int result = 0;
struct utmp *ut, line, buffer;
/* Get name of tty connected to fd 0. Return if not a tty or
if fd 0 isn't open. Note that a lot of documentation says that
getlogin() is based on the controlling terminal---what they
really mean is "the terminal connected to standard input". The
getlogin() implementation of DEC Unix, SunOS, Solaris, HP-UX all
return NULL if fd 0 has been closed, so this is the compatible
thing to do. Note that ttyname(open("/dev/tty")) on those
systems returns /dev/tty, so that is not a possible solution for
getlogin(). */
result = __ttyname_r (0, real_tty_path, sizeof (tty_pathname));
if (result != 0)
return result;
real_tty_path += 5; /* Remove "/dev/". */
__setutent ();
strncpy (line.ut_line, real_tty_path, sizeof line.ut_line);
if (__getutline_r (&line, &buffer, &ut) < 0)
{
if (errno == ESRCH)
/* The caller expects ENOENT if nothing is found. */
result = ENOENT;
else
result = errno;
}
else
{
size_t needed = strlen (ut->ut_user) + 1;
if (needed > name_len)
{
__set_errno (ERANGE);
result = ERANGE;
}
else
{
memcpy (name, ut->ut_user, needed);
result = 0;
}
}
__endutent ();
return result;
}
|
check_1_6_dummy(kadm5_principal_ent_t entry, long mask,
int n_ks_tuple, krb5_key_salt_tuple *ks_tuple, char **passptr)
{
int i;
char *password = *passptr;
/* Old-style randkey operations disallowed tickets to start. */
if (!(mask & KADM5_ATTRIBUTES) ||
!(entry->attributes & KRB5_KDB_DISALLOW_ALL_TIX))
return;
/* The 1.6 dummy password was the octets 1..255. */
for (i = 0; (unsigned char) password[i] == i + 1; i++);
if (password[i] != '\0' || i != 255)
return;
/* This will make the caller use a random password instead. */
*passptr = NULL;
}
|
check_1_6_dummy(kadm5_principal_ent_t entry, long mask,
int n_ks_tuple, krb5_key_salt_tuple *ks_tuple, char **passptr)
{
int i;
char *password = *passptr;
/* Old-style randkey operations disallowed tickets to start. */
if (password == NULL || !(mask & KADM5_ATTRIBUTES) ||
!(entry->attributes & KRB5_KDB_DISALLOW_ALL_TIX))
return;
/* The 1.6 dummy password was the octets 1..255. */
for (i = 0; (unsigned char) password[i] == i + 1; i++);
if (password[i] != '\0' || i != 255)
return;
/* This will make the caller use a random password instead. */
*passptr = NULL;
}
|
process_chpw_request(krb5_context context, void *server_handle, char *realm,
krb5_keytab keytab, const krb5_fulladdr *local_faddr,
const krb5_fulladdr *remote_faddr, krb5_data *req,
krb5_data *rep)
{
krb5_error_code ret;
char *ptr;
unsigned int plen, vno;
krb5_data ap_req, ap_rep = empty_data();
krb5_data cipher = empty_data(), clear = empty_data();
krb5_auth_context auth_context = NULL;
krb5_principal changepw = NULL;
krb5_principal client, target = NULL;
krb5_ticket *ticket = NULL;
krb5_replay_data replay;
krb5_error krberror;
int numresult;
char strresult[1024];
char *clientstr = NULL, *targetstr = NULL;
const char *errmsg = NULL;
size_t clen;
char *cdots;
struct sockaddr_storage ss;
socklen_t salen;
char addrbuf[100];
krb5_address *addr = remote_faddr->address;
*rep = empty_data();
if (req->length < 4) {
/* either this, or the server is printing bad messages,
or the caller passed in garbage */
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request was truncated", sizeof(strresult));
goto chpwfail;
}
ptr = req->data;
/* verify length */
plen = (*ptr++ & 0xff);
plen = (plen<<8) | (*ptr++ & 0xff);
if (plen != req->length) {
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request length was inconsistent",
sizeof(strresult));
goto chpwfail;
}
/* verify version number */
vno = (*ptr++ & 0xff) ;
vno = (vno<<8) | (*ptr++ & 0xff);
if (vno != 1 && vno != RFC3244_VERSION) {
ret = KRB5KDC_ERR_BAD_PVNO;
numresult = KRB5_KPASSWD_BAD_VERSION;
snprintf(strresult, sizeof(strresult),
"Request contained unknown protocol version number %d", vno);
goto chpwfail;
}
/* read, check ap-req length */
ap_req.length = (*ptr++ & 0xff);
ap_req.length = (ap_req.length<<8) | (*ptr++ & 0xff);
if (ptr + ap_req.length >= req->data + req->length) {
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request was truncated in AP-REQ",
sizeof(strresult));
goto chpwfail;
}
/* verify ap_req */
ap_req.data = ptr;
ptr += ap_req.length;
ret = krb5_auth_con_init(context, &auth_context);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed initializing auth context",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_auth_con_setflags(context, auth_context,
KRB5_AUTH_CONTEXT_DO_SEQUENCE);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed initializing auth context",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_build_principal(context, &changepw, strlen(realm), realm,
"kadmin", "changepw", NULL);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed building kadmin/changepw principal",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_rd_req(context, &auth_context, &ap_req, changepw, keytab,
NULL, &ticket);
if (ret) {
numresult = KRB5_KPASSWD_AUTHERROR;
strlcpy(strresult, "Failed reading application request",
sizeof(strresult));
goto chpwfail;
}
/* construct the ap-rep */
ret = krb5_mk_rep(context, auth_context, &ap_rep);
if (ret) {
numresult = KRB5_KPASSWD_AUTHERROR;
strlcpy(strresult, "Failed replying to application request",
sizeof(strresult));
goto chpwfail;
}
/* decrypt the ChangePasswdData */
cipher.length = (req->data + req->length) - ptr;
cipher.data = ptr;
/*
* Don't set a remote address in auth_context before calling krb5_rd_priv,
* so that we can work against clients behind a NAT. Reflection attacks
* aren't a concern since we use sequence numbers and since our requests
* don't look anything like our responses. Also don't set a local address,
* since we don't know what interface the request was received on.
*/
ret = krb5_rd_priv(context, auth_context, &cipher, &clear, &replay);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed decrypting request", sizeof(strresult));
goto chpwfail;
}
client = ticket->enc_part2->client;
/* decode ChangePasswdData for setpw requests */
if (vno == RFC3244_VERSION) {
krb5_data *clear_data;
ret = decode_krb5_setpw_req(&clear, &clear_data, &target);
if (ret != 0) {
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Failed decoding ChangePasswdData",
sizeof(strresult));
goto chpwfail;
}
zapfree(clear.data, clear.length);
clear = *clear_data;
free(clear_data);
if (target != NULL) {
ret = krb5_unparse_name(context, target, &targetstr);
if (ret != 0) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed unparsing target name for log",
sizeof(strresult));
goto chpwfail;
}
}
}
ret = krb5_unparse_name(context, client, &clientstr);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed unparsing client name for log",
sizeof(strresult));
goto chpwfail;
}
/* for cpw, verify that this is an AS_REQ ticket */
if (vno == 1 &&
(ticket->enc_part2->flags & TKT_FLG_INITIAL) == 0) {
numresult = KRB5_KPASSWD_INITIAL_FLAG_NEEDED;
strlcpy(strresult, "Ticket must be derived from a password",
sizeof(strresult));
goto chpwfail;
}
/* change the password */
ptr = k5memdup0(clear.data, clear.length, &ret);
ret = schpw_util_wrapper(server_handle, client, target,
(ticket->enc_part2->flags & TKT_FLG_INITIAL) != 0,
ptr, NULL, strresult, sizeof(strresult));
if (ret)
errmsg = krb5_get_error_message(context, ret);
/* zap the password */
zapfree(clear.data, clear.length);
zapfree(ptr, clear.length);
clear = empty_data();
clen = strlen(clientstr);
trunc_name(&clen, &cdots);
switch (addr->addrtype) {
case ADDRTYPE_INET: {
struct sockaddr_in *sin = ss2sin(&ss);
sin->sin_family = AF_INET;
memcpy(&sin->sin_addr, addr->contents, addr->length);
sin->sin_port = htons(remote_faddr->port);
salen = sizeof(*sin);
break;
}
case ADDRTYPE_INET6: {
struct sockaddr_in6 *sin6 = ss2sin6(&ss);
sin6->sin6_family = AF_INET6;
memcpy(&sin6->sin6_addr, addr->contents, addr->length);
sin6->sin6_port = htons(remote_faddr->port);
salen = sizeof(*sin6);
break;
}
default: {
struct sockaddr *sa = ss2sa(&ss);
sa->sa_family = AF_UNSPEC;
salen = sizeof(*sa);
break;
}
}
if (getnameinfo(ss2sa(&ss), salen,
addrbuf, sizeof(addrbuf), NULL, 0,
NI_NUMERICHOST | NI_NUMERICSERV) != 0)
strlcpy(addrbuf, "<unprintable>", sizeof(addrbuf));
if (vno == RFC3244_VERSION) {
size_t tlen;
char *tdots;
const char *targetp;
if (target == NULL) {
tlen = clen;
tdots = cdots;
targetp = targetstr;
} else {
tlen = strlen(targetstr);
trunc_name(&tlen, &tdots);
targetp = clientstr;
}
krb5_klog_syslog(LOG_NOTICE, _("setpw request from %s by %.*s%s for "
"%.*s%s: %s"), addrbuf, (int) clen,
clientstr, cdots, (int) tlen, targetp, tdots,
errmsg ? errmsg : "success");
} else {
krb5_klog_syslog(LOG_NOTICE, _("chpw request from %s for %.*s%s: %s"),
addrbuf, (int) clen, clientstr, cdots,
errmsg ? errmsg : "success");
}
switch (ret) {
case KADM5_AUTH_CHANGEPW:
numresult = KRB5_KPASSWD_ACCESSDENIED;
break;
case KADM5_PASS_Q_TOOSHORT:
case KADM5_PASS_REUSE:
case KADM5_PASS_Q_CLASS:
case KADM5_PASS_Q_DICT:
case KADM5_PASS_Q_GENERIC:
case KADM5_PASS_TOOSOON:
numresult = KRB5_KPASSWD_SOFTERROR;
break;
case 0:
numresult = KRB5_KPASSWD_SUCCESS;
strlcpy(strresult, "", sizeof(strresult));
break;
default:
numresult = KRB5_KPASSWD_HARDERROR;
break;
}
chpwfail:
clear.length = 2 + strlen(strresult);
clear.data = (char *) malloc(clear.length);
ptr = clear.data;
*ptr++ = (numresult>>8) & 0xff;
*ptr++ = numresult & 0xff;
memcpy(ptr, strresult, strlen(strresult));
cipher = empty_data();
if (ap_rep.length) {
ret = krb5_auth_con_setaddrs(context, auth_context,
local_faddr->address, NULL);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult,
"Failed storing client and server internet addresses",
sizeof(strresult));
} else {
ret = krb5_mk_priv(context, auth_context, &clear, &cipher,
&replay);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed encrypting reply",
sizeof(strresult));
}
}
}
/* if no KRB-PRIV was constructed, then we need a KRB-ERROR.
if this fails, just bail. there's nothing else we can do. */
if (cipher.length == 0) {
/* clear out ap_rep now, so that it won't be inserted in the
reply */
if (ap_rep.length) {
free(ap_rep.data);
ap_rep = empty_data();
}
krberror.ctime = 0;
krberror.cusec = 0;
krberror.susec = 0;
ret = krb5_timeofday(context, &krberror.stime);
if (ret)
goto bailout;
/* this is really icky. but it's what all the other callers
to mk_error do. */
krberror.error = ret;
krberror.error -= ERROR_TABLE_BASE_krb5;
if (krberror.error < 0 || krberror.error > 128)
krberror.error = KRB_ERR_GENERIC;
krberror.client = NULL;
ret = krb5_build_principal(context, &krberror.server,
strlen(realm), realm,
"kadmin", "changepw", NULL);
if (ret)
goto bailout;
krberror.text.length = 0;
krberror.e_data = clear;
ret = krb5_mk_error(context, &krberror, &cipher);
krb5_free_principal(context, krberror.server);
if (ret)
goto bailout;
}
/* construct the reply */
ret = alloc_data(rep, 6 + ap_rep.length + cipher.length);
if (ret)
goto bailout;
ptr = rep->data;
/* length */
*ptr++ = (rep->length>>8) & 0xff;
*ptr++ = rep->length & 0xff;
/* version == 0x0001 big-endian */
*ptr++ = 0;
*ptr++ = 1;
/* ap_rep length, big-endian */
*ptr++ = (ap_rep.length>>8) & 0xff;
*ptr++ = ap_rep.length & 0xff;
/* ap-rep data */
if (ap_rep.length) {
memcpy(ptr, ap_rep.data, ap_rep.length);
ptr += ap_rep.length;
}
/* krb-priv or krb-error */
memcpy(ptr, cipher.data, cipher.length);
bailout:
krb5_auth_con_free(context, auth_context);
krb5_free_principal(context, changepw);
krb5_free_ticket(context, ticket);
free(ap_rep.data);
free(clear.data);
free(cipher.data);
krb5_free_principal(context, target);
krb5_free_unparsed_name(context, targetstr);
krb5_free_unparsed_name(context, clientstr);
krb5_free_error_message(context, errmsg);
return ret;
}
|
process_chpw_request(krb5_context context, void *server_handle, char *realm,
krb5_keytab keytab, const krb5_fulladdr *local_faddr,
const krb5_fulladdr *remote_faddr, krb5_data *req,
krb5_data *rep)
{
krb5_error_code ret;
char *ptr;
unsigned int plen, vno;
krb5_data ap_req, ap_rep = empty_data();
krb5_data cipher = empty_data(), clear = empty_data();
krb5_auth_context auth_context = NULL;
krb5_principal changepw = NULL;
krb5_principal client, target = NULL;
krb5_ticket *ticket = NULL;
krb5_replay_data replay;
krb5_error krberror;
int numresult;
char strresult[1024];
char *clientstr = NULL, *targetstr = NULL;
const char *errmsg = NULL;
size_t clen;
char *cdots;
struct sockaddr_storage ss;
socklen_t salen;
char addrbuf[100];
krb5_address *addr = remote_faddr->address;
*rep = empty_data();
if (req->length < 4) {
/* either this, or the server is printing bad messages,
or the caller passed in garbage */
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request was truncated", sizeof(strresult));
goto bailout;
}
ptr = req->data;
/* verify length */
plen = (*ptr++ & 0xff);
plen = (plen<<8) | (*ptr++ & 0xff);
if (plen != req->length) {
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request length was inconsistent",
sizeof(strresult));
goto bailout;
}
/* verify version number */
vno = (*ptr++ & 0xff) ;
vno = (vno<<8) | (*ptr++ & 0xff);
if (vno != 1 && vno != RFC3244_VERSION) {
ret = KRB5KDC_ERR_BAD_PVNO;
numresult = KRB5_KPASSWD_BAD_VERSION;
snprintf(strresult, sizeof(strresult),
"Request contained unknown protocol version number %d", vno);
goto bailout;
}
/* read, check ap-req length */
ap_req.length = (*ptr++ & 0xff);
ap_req.length = (ap_req.length<<8) | (*ptr++ & 0xff);
if (ptr + ap_req.length >= req->data + req->length) {
ret = KRB5KRB_AP_ERR_MODIFIED;
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Request was truncated in AP-REQ",
sizeof(strresult));
goto bailout;
}
/* verify ap_req */
ap_req.data = ptr;
ptr += ap_req.length;
ret = krb5_auth_con_init(context, &auth_context);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed initializing auth context",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_auth_con_setflags(context, auth_context,
KRB5_AUTH_CONTEXT_DO_SEQUENCE);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed initializing auth context",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_build_principal(context, &changepw, strlen(realm), realm,
"kadmin", "changepw", NULL);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed building kadmin/changepw principal",
sizeof(strresult));
goto chpwfail;
}
ret = krb5_rd_req(context, &auth_context, &ap_req, changepw, keytab,
NULL, &ticket);
if (ret) {
numresult = KRB5_KPASSWD_AUTHERROR;
strlcpy(strresult, "Failed reading application request",
sizeof(strresult));
goto chpwfail;
}
/* construct the ap-rep */
ret = krb5_mk_rep(context, auth_context, &ap_rep);
if (ret) {
numresult = KRB5_KPASSWD_AUTHERROR;
strlcpy(strresult, "Failed replying to application request",
sizeof(strresult));
goto chpwfail;
}
/* decrypt the ChangePasswdData */
cipher.length = (req->data + req->length) - ptr;
cipher.data = ptr;
/*
* Don't set a remote address in auth_context before calling krb5_rd_priv,
* so that we can work against clients behind a NAT. Reflection attacks
* aren't a concern since we use sequence numbers and since our requests
* don't look anything like our responses. Also don't set a local address,
* since we don't know what interface the request was received on.
*/
ret = krb5_rd_priv(context, auth_context, &cipher, &clear, &replay);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed decrypting request", sizeof(strresult));
goto chpwfail;
}
client = ticket->enc_part2->client;
/* decode ChangePasswdData for setpw requests */
if (vno == RFC3244_VERSION) {
krb5_data *clear_data;
ret = decode_krb5_setpw_req(&clear, &clear_data, &target);
if (ret != 0) {
numresult = KRB5_KPASSWD_MALFORMED;
strlcpy(strresult, "Failed decoding ChangePasswdData",
sizeof(strresult));
goto chpwfail;
}
zapfree(clear.data, clear.length);
clear = *clear_data;
free(clear_data);
if (target != NULL) {
ret = krb5_unparse_name(context, target, &targetstr);
if (ret != 0) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed unparsing target name for log",
sizeof(strresult));
goto chpwfail;
}
}
}
ret = krb5_unparse_name(context, client, &clientstr);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed unparsing client name for log",
sizeof(strresult));
goto chpwfail;
}
/* for cpw, verify that this is an AS_REQ ticket */
if (vno == 1 &&
(ticket->enc_part2->flags & TKT_FLG_INITIAL) == 0) {
numresult = KRB5_KPASSWD_INITIAL_FLAG_NEEDED;
strlcpy(strresult, "Ticket must be derived from a password",
sizeof(strresult));
goto chpwfail;
}
/* change the password */
ptr = k5memdup0(clear.data, clear.length, &ret);
ret = schpw_util_wrapper(server_handle, client, target,
(ticket->enc_part2->flags & TKT_FLG_INITIAL) != 0,
ptr, NULL, strresult, sizeof(strresult));
if (ret)
errmsg = krb5_get_error_message(context, ret);
/* zap the password */
zapfree(clear.data, clear.length);
zapfree(ptr, clear.length);
clear = empty_data();
clen = strlen(clientstr);
trunc_name(&clen, &cdots);
switch (addr->addrtype) {
case ADDRTYPE_INET: {
struct sockaddr_in *sin = ss2sin(&ss);
sin->sin_family = AF_INET;
memcpy(&sin->sin_addr, addr->contents, addr->length);
sin->sin_port = htons(remote_faddr->port);
salen = sizeof(*sin);
break;
}
case ADDRTYPE_INET6: {
struct sockaddr_in6 *sin6 = ss2sin6(&ss);
sin6->sin6_family = AF_INET6;
memcpy(&sin6->sin6_addr, addr->contents, addr->length);
sin6->sin6_port = htons(remote_faddr->port);
salen = sizeof(*sin6);
break;
}
default: {
struct sockaddr *sa = ss2sa(&ss);
sa->sa_family = AF_UNSPEC;
salen = sizeof(*sa);
break;
}
}
if (getnameinfo(ss2sa(&ss), salen,
addrbuf, sizeof(addrbuf), NULL, 0,
NI_NUMERICHOST | NI_NUMERICSERV) != 0)
strlcpy(addrbuf, "<unprintable>", sizeof(addrbuf));
if (vno == RFC3244_VERSION) {
size_t tlen;
char *tdots;
const char *targetp;
if (target == NULL) {
tlen = clen;
tdots = cdots;
targetp = targetstr;
} else {
tlen = strlen(targetstr);
trunc_name(&tlen, &tdots);
targetp = clientstr;
}
krb5_klog_syslog(LOG_NOTICE, _("setpw request from %s by %.*s%s for "
"%.*s%s: %s"), addrbuf, (int) clen,
clientstr, cdots, (int) tlen, targetp, tdots,
errmsg ? errmsg : "success");
} else {
krb5_klog_syslog(LOG_NOTICE, _("chpw request from %s for %.*s%s: %s"),
addrbuf, (int) clen, clientstr, cdots,
errmsg ? errmsg : "success");
}
switch (ret) {
case KADM5_AUTH_CHANGEPW:
numresult = KRB5_KPASSWD_ACCESSDENIED;
break;
case KADM5_PASS_Q_TOOSHORT:
case KADM5_PASS_REUSE:
case KADM5_PASS_Q_CLASS:
case KADM5_PASS_Q_DICT:
case KADM5_PASS_Q_GENERIC:
case KADM5_PASS_TOOSOON:
numresult = KRB5_KPASSWD_SOFTERROR;
break;
case 0:
numresult = KRB5_KPASSWD_SUCCESS;
strlcpy(strresult, "", sizeof(strresult));
break;
default:
numresult = KRB5_KPASSWD_HARDERROR;
break;
}
chpwfail:
clear.length = 2 + strlen(strresult);
clear.data = (char *) malloc(clear.length);
ptr = clear.data;
*ptr++ = (numresult>>8) & 0xff;
*ptr++ = numresult & 0xff;
memcpy(ptr, strresult, strlen(strresult));
cipher = empty_data();
if (ap_rep.length) {
ret = krb5_auth_con_setaddrs(context, auth_context,
local_faddr->address, NULL);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult,
"Failed storing client and server internet addresses",
sizeof(strresult));
} else {
ret = krb5_mk_priv(context, auth_context, &clear, &cipher,
&replay);
if (ret) {
numresult = KRB5_KPASSWD_HARDERROR;
strlcpy(strresult, "Failed encrypting reply",
sizeof(strresult));
}
}
}
/* if no KRB-PRIV was constructed, then we need a KRB-ERROR.
if this fails, just bail. there's nothing else we can do. */
if (cipher.length == 0) {
/* clear out ap_rep now, so that it won't be inserted in the
reply */
if (ap_rep.length) {
free(ap_rep.data);
ap_rep = empty_data();
}
krberror.ctime = 0;
krberror.cusec = 0;
krberror.susec = 0;
ret = krb5_timeofday(context, &krberror.stime);
if (ret)
goto bailout;
/* this is really icky. but it's what all the other callers
to mk_error do. */
krberror.error = ret;
krberror.error -= ERROR_TABLE_BASE_krb5;
if (krberror.error < 0 || krberror.error > 128)
krberror.error = KRB_ERR_GENERIC;
krberror.client = NULL;
ret = krb5_build_principal(context, &krberror.server,
strlen(realm), realm,
"kadmin", "changepw", NULL);
if (ret)
goto bailout;
krberror.text.length = 0;
krberror.e_data = clear;
ret = krb5_mk_error(context, &krberror, &cipher);
krb5_free_principal(context, krberror.server);
if (ret)
goto bailout;
}
/* construct the reply */
ret = alloc_data(rep, 6 + ap_rep.length + cipher.length);
if (ret)
goto bailout;
ptr = rep->data;
/* length */
*ptr++ = (rep->length>>8) & 0xff;
*ptr++ = rep->length & 0xff;
/* version == 0x0001 big-endian */
*ptr++ = 0;
*ptr++ = 1;
/* ap_rep length, big-endian */
*ptr++ = (ap_rep.length>>8) & 0xff;
*ptr++ = ap_rep.length & 0xff;
/* ap-rep data */
if (ap_rep.length) {
memcpy(ptr, ap_rep.data, ap_rep.length);
ptr += ap_rep.length;
}
/* krb-priv or krb-error */
memcpy(ptr, cipher.data, cipher.length);
bailout:
krb5_auth_con_free(context, auth_context);
krb5_free_principal(context, changepw);
krb5_free_ticket(context, ticket);
free(ap_rep.data);
free(clear.data);
free(cipher.data);
krb5_free_principal(context, target);
krb5_free_unparsed_name(context, targetstr);
krb5_free_unparsed_name(context, clientstr);
krb5_free_error_message(context, errmsg);
return ret;
}
|
acc_ctx_cont(OM_uint32 *minstat,
gss_buffer_t buf,
gss_ctx_id_t *ctx,
gss_buffer_t *responseToken,
gss_buffer_t *mechListMIC,
OM_uint32 *negState,
send_token_flag *return_token)
{
OM_uint32 ret, tmpmin;
gss_OID supportedMech;
spnego_gss_ctx_id_t sc;
unsigned int len;
unsigned char *ptr, *bufstart;
sc = (spnego_gss_ctx_id_t)*ctx;
ret = GSS_S_DEFECTIVE_TOKEN;
*negState = REJECT;
*minstat = 0;
supportedMech = GSS_C_NO_OID;
*return_token = ERROR_TOKEN_SEND;
*responseToken = *mechListMIC = GSS_C_NO_BUFFER;
ptr = bufstart = buf->value;
#define REMAIN (buf->length - (ptr - bufstart))
if (REMAIN > INT_MAX)
return GSS_S_DEFECTIVE_TOKEN;
/*
* Attempt to work with old Sun SPNEGO.
*/
if (*ptr == HEADER_ID) {
ret = g_verify_token_header(gss_mech_spnego,
&len, &ptr, 0, REMAIN);
if (ret) {
*minstat = ret;
return GSS_S_DEFECTIVE_TOKEN;
}
}
if (*ptr != (CONTEXT | 0x01)) {
return GSS_S_DEFECTIVE_TOKEN;
}
ret = get_negTokenResp(minstat, ptr, REMAIN,
negState, &supportedMech,
responseToken, mechListMIC);
if (ret != GSS_S_COMPLETE)
goto cleanup;
if (*responseToken == GSS_C_NO_BUFFER &&
*mechListMIC == GSS_C_NO_BUFFER) {
ret = GSS_S_DEFECTIVE_TOKEN;
goto cleanup;
}
if (supportedMech != GSS_C_NO_OID) {
ret = GSS_S_DEFECTIVE_TOKEN;
goto cleanup;
}
sc->firstpass = 0;
*negState = ACCEPT_INCOMPLETE;
*return_token = CONT_TOKEN_SEND;
cleanup:
if (supportedMech != GSS_C_NO_OID) {
generic_gss_release_oid(&tmpmin, &supportedMech);
}
return ret;
#undef REMAIN
}
|
acc_ctx_cont(OM_uint32 *minstat,
gss_buffer_t buf,
gss_ctx_id_t *ctx,
gss_buffer_t *responseToken,
gss_buffer_t *mechListMIC,
OM_uint32 *negState,
send_token_flag *return_token)
{
OM_uint32 ret, tmpmin;
gss_OID supportedMech;
spnego_gss_ctx_id_t sc;
unsigned int len;
unsigned char *ptr, *bufstart;
sc = (spnego_gss_ctx_id_t)*ctx;
ret = GSS_S_DEFECTIVE_TOKEN;
*negState = REJECT;
*minstat = 0;
supportedMech = GSS_C_NO_OID;
*return_token = ERROR_TOKEN_SEND;
*responseToken = *mechListMIC = GSS_C_NO_BUFFER;
ptr = bufstart = buf->value;
#define REMAIN (buf->length - (ptr - bufstart))
if (REMAIN == 0 || REMAIN > INT_MAX)
return GSS_S_DEFECTIVE_TOKEN;
/*
* Attempt to work with old Sun SPNEGO.
*/
if (*ptr == HEADER_ID) {
ret = g_verify_token_header(gss_mech_spnego,
&len, &ptr, 0, REMAIN);
if (ret) {
*minstat = ret;
return GSS_S_DEFECTIVE_TOKEN;
}
}
if (*ptr != (CONTEXT | 0x01)) {
return GSS_S_DEFECTIVE_TOKEN;
}
ret = get_negTokenResp(minstat, ptr, REMAIN,
negState, &supportedMech,
responseToken, mechListMIC);
if (ret != GSS_S_COMPLETE)
goto cleanup;
if (*responseToken == GSS_C_NO_BUFFER &&
*mechListMIC == GSS_C_NO_BUFFER) {
ret = GSS_S_DEFECTIVE_TOKEN;
goto cleanup;
}
if (supportedMech != GSS_C_NO_OID) {
ret = GSS_S_DEFECTIVE_TOKEN;
goto cleanup;
}
sc->firstpass = 0;
*negState = ACCEPT_INCOMPLETE;
*return_token = CONT_TOKEN_SEND;
cleanup:
if (supportedMech != GSS_C_NO_OID) {
generic_gss_release_oid(&tmpmin, &supportedMech);
}
return ret;
#undef REMAIN
}
|
kadm5_randkey_principal_3(void *server_handle,
krb5_principal principal,
krb5_boolean keepold,
int n_ks_tuple, krb5_key_salt_tuple *ks_tuple,
krb5_keyblock **keyblocks,
int *n_keys)
{
krb5_db_entry *kdb;
osa_princ_ent_rec adb;
krb5_int32 now;
kadm5_policy_ent_rec pol;
int ret, last_pwd;
krb5_boolean have_pol = FALSE;
kadm5_server_handle_t handle = server_handle;
krb5_keyblock *act_mkey;
krb5_kvno act_kvno;
int new_n_ks_tuple = 0;
krb5_key_salt_tuple *new_ks_tuple = NULL;
if (keyblocks)
*keyblocks = NULL;
CHECK_HANDLE(server_handle);
krb5_clear_error_message(handle->context);
if (principal == NULL)
return EINVAL;
if ((ret = kdb_get_entry(handle, principal, &kdb, &adb)))
return(ret);
ret = apply_keysalt_policy(handle, adb.policy, n_ks_tuple, ks_tuple,
&new_n_ks_tuple, &new_ks_tuple);
if (ret)
goto done;
if (krb5_principal_compare(handle->context, principal, hist_princ)) {
/* If changing the history entry, the new entry must have exactly one
* key. */
if (keepold)
return KADM5_PROTECT_PRINCIPAL;
new_n_ks_tuple = 1;
}
ret = kdb_get_active_mkey(handle, &act_kvno, &act_mkey);
if (ret)
goto done;
ret = krb5_dbe_crk(handle->context, act_mkey, new_ks_tuple, new_n_ks_tuple,
keepold, kdb);
if (ret)
goto done;
ret = krb5_dbe_update_mkvno(handle->context, kdb, act_kvno);
if (ret)
goto done;
kdb->attributes &= ~KRB5_KDB_REQUIRES_PWCHANGE;
ret = krb5_timeofday(handle->context, &now);
if (ret)
goto done;
if ((adb.aux_attributes & KADM5_POLICY)) {
ret = get_policy(handle, adb.policy, &pol, &have_pol);
if (ret)
goto done;
}
if (have_pol) {
ret = krb5_dbe_lookup_last_pwd_change(handle->context, kdb, &last_pwd);
if (ret)
goto done;
#if 0
/*
* The spec says this check is overridden if the caller has
* modify privilege. The admin server therefore makes this
* check itself (in chpass_principal_wrapper, misc.c). A
* local caller implicitly has all authorization bits.
*/
if((now - last_pwd) < pol.pw_min_life &&
!(kdb->attributes & KRB5_KDB_REQUIRES_PWCHANGE)) {
ret = KADM5_PASS_TOOSOON;
goto done;
}
#endif
if (pol.pw_max_life)
kdb->pw_expiration = now + pol.pw_max_life;
else
kdb->pw_expiration = 0;
} else {
kdb->pw_expiration = 0;
}
ret = krb5_dbe_update_last_pwd_change(handle->context, kdb, now);
if (ret)
goto done;
/* unlock principal on this KDC */
kdb->fail_auth_count = 0;
if (keyblocks) {
ret = decrypt_key_data(handle->context,
kdb->n_key_data, kdb->key_data,
keyblocks, n_keys);
if (ret)
goto done;
}
/* key data changed, let the database provider know */
kdb->mask = KADM5_KEY_DATA | KADM5_FAIL_AUTH_COUNT;
/* | KADM5_RANDKEY_USED */;
ret = k5_kadm5_hook_chpass(handle->context, handle->hook_handles,
KADM5_HOOK_STAGE_PRECOMMIT, principal, keepold,
new_n_ks_tuple, new_ks_tuple, NULL);
if (ret)
goto done;
if ((ret = kdb_put_entry(handle, kdb, &adb)))
goto done;
(void) k5_kadm5_hook_chpass(handle->context, handle->hook_handles,
KADM5_HOOK_STAGE_POSTCOMMIT, principal,
keepold, new_n_ks_tuple, new_ks_tuple, NULL);
ret = KADM5_OK;
done:
free(new_ks_tuple);
kdb_free_entry(handle, kdb, &adb);
if (have_pol)
kadm5_free_policy_ent(handle->lhandle, &pol);
return ret;
}
|
kadm5_randkey_principal_3(void *server_handle,
krb5_principal principal,
krb5_boolean keepold,
int n_ks_tuple, krb5_key_salt_tuple *ks_tuple,
krb5_keyblock **keyblocks,
int *n_keys)
{
krb5_db_entry *kdb;
osa_princ_ent_rec adb;
krb5_int32 now;
kadm5_policy_ent_rec pol;
int ret, last_pwd, n_new_keys;
krb5_boolean have_pol = FALSE;
kadm5_server_handle_t handle = server_handle;
krb5_keyblock *act_mkey;
krb5_kvno act_kvno;
int new_n_ks_tuple = 0;
krb5_key_salt_tuple *new_ks_tuple = NULL;
if (keyblocks)
*keyblocks = NULL;
CHECK_HANDLE(server_handle);
krb5_clear_error_message(handle->context);
if (principal == NULL)
return EINVAL;
if ((ret = kdb_get_entry(handle, principal, &kdb, &adb)))
return(ret);
ret = apply_keysalt_policy(handle, adb.policy, n_ks_tuple, ks_tuple,
&new_n_ks_tuple, &new_ks_tuple);
if (ret)
goto done;
if (krb5_principal_compare(handle->context, principal, hist_princ)) {
/* If changing the history entry, the new entry must have exactly one
* key. */
if (keepold)
return KADM5_PROTECT_PRINCIPAL;
new_n_ks_tuple = 1;
}
ret = kdb_get_active_mkey(handle, &act_kvno, &act_mkey);
if (ret)
goto done;
ret = krb5_dbe_crk(handle->context, act_mkey, new_ks_tuple, new_n_ks_tuple,
keepold, kdb);
if (ret)
goto done;
ret = krb5_dbe_update_mkvno(handle->context, kdb, act_kvno);
if (ret)
goto done;
kdb->attributes &= ~KRB5_KDB_REQUIRES_PWCHANGE;
ret = krb5_timeofday(handle->context, &now);
if (ret)
goto done;
if ((adb.aux_attributes & KADM5_POLICY)) {
ret = get_policy(handle, adb.policy, &pol, &have_pol);
if (ret)
goto done;
}
if (have_pol) {
ret = krb5_dbe_lookup_last_pwd_change(handle->context, kdb, &last_pwd);
if (ret)
goto done;
#if 0
/*
* The spec says this check is overridden if the caller has
* modify privilege. The admin server therefore makes this
* check itself (in chpass_principal_wrapper, misc.c). A
* local caller implicitly has all authorization bits.
*/
if((now - last_pwd) < pol.pw_min_life &&
!(kdb->attributes & KRB5_KDB_REQUIRES_PWCHANGE)) {
ret = KADM5_PASS_TOOSOON;
goto done;
}
#endif
if (pol.pw_max_life)
kdb->pw_expiration = now + pol.pw_max_life;
else
kdb->pw_expiration = 0;
} else {
kdb->pw_expiration = 0;
}
ret = krb5_dbe_update_last_pwd_change(handle->context, kdb, now);
if (ret)
goto done;
/* unlock principal on this KDC */
kdb->fail_auth_count = 0;
if (keyblocks) {
/* Return only the new keys added by krb5_dbe_crk. */
n_new_keys = count_new_keys(kdb->n_key_data, kdb->key_data);
ret = decrypt_key_data(handle->context, n_new_keys, kdb->key_data,
keyblocks, n_keys);
if (ret)
goto done;
}
/* key data changed, let the database provider know */
kdb->mask = KADM5_KEY_DATA | KADM5_FAIL_AUTH_COUNT;
/* | KADM5_RANDKEY_USED */;
ret = k5_kadm5_hook_chpass(handle->context, handle->hook_handles,
KADM5_HOOK_STAGE_PRECOMMIT, principal, keepold,
new_n_ks_tuple, new_ks_tuple, NULL);
if (ret)
goto done;
if ((ret = kdb_put_entry(handle, kdb, &adb)))
goto done;
(void) k5_kadm5_hook_chpass(handle->context, handle->hook_handles,
KADM5_HOOK_STAGE_POSTCOMMIT, principal,
keepold, new_n_ks_tuple, new_ks_tuple, NULL);
ret = KADM5_OK;
done:
free(new_ks_tuple);
kdb_free_entry(handle, kdb, &adb);
if (have_pol)
kadm5_free_policy_ent(handle->lhandle, &pol);
return ret;
}
|
krb5_ldap_get_password_policy_from_dn(krb5_context context, char *pol_name,
char *pol_dn, osa_policy_ent_t *policy)
{
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL,*ent=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
/* Clear the global error string */
krb5_clear_error_message(context);
/* validate the input parameters */
if (pol_dn == NULL)
return EINVAL;
*policy = NULL;
SETUP_CONTEXT();
GET_HANDLE();
*(policy) = (osa_policy_ent_t) malloc(sizeof(osa_policy_ent_rec));
if (*policy == NULL) {
st = ENOMEM;
goto cleanup;
}
memset(*policy, 0, sizeof(osa_policy_ent_rec));
LDAP_SEARCH(pol_dn, LDAP_SCOPE_BASE, "(objectclass=krbPwdPolicy)", password_policy_attributes);
ent=ldap_first_entry(ld, result);
if (ent != NULL) {
if ((st = populate_policy(context, ld, ent, pol_name, *policy)) != 0)
goto cleanup;
}
cleanup:
ldap_msgfree(result);
if (st != 0) {
if (*policy != NULL) {
krb5_ldap_free_password_policy(context, *policy);
*policy = NULL;
}
}
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return st;
}
|
krb5_ldap_get_password_policy_from_dn(krb5_context context, char *pol_name,
char *pol_dn, osa_policy_ent_t *policy)
{
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL,*ent=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
/* Clear the global error string */
krb5_clear_error_message(context);
/* validate the input parameters */
if (pol_dn == NULL)
return EINVAL;
*policy = NULL;
SETUP_CONTEXT();
GET_HANDLE();
*(policy) = (osa_policy_ent_t) malloc(sizeof(osa_policy_ent_rec));
if (*policy == NULL) {
st = ENOMEM;
goto cleanup;
}
memset(*policy, 0, sizeof(osa_policy_ent_rec));
LDAP_SEARCH(pol_dn, LDAP_SCOPE_BASE, "(objectclass=krbPwdPolicy)", password_policy_attributes);
ent=ldap_first_entry(ld, result);
if (ent == NULL) {
st = KRB5_KDB_NOENTRY;
goto cleanup;
}
st = populate_policy(context, ld, ent, pol_name, *policy);
cleanup:
ldap_msgfree(result);
if (st != 0) {
if (*policy != NULL) {
krb5_ldap_free_password_policy(context, *policy);
*policy = NULL;
}
}
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return st;
}
|
krb5_encode_krbsecretkey(krb5_key_data *key_data_in, int n_key_data,
krb5_kvno mkvno) {
struct berval **ret = NULL;
int currkvno;
int num_versions = 1;
int i, j, last;
krb5_error_code err = 0;
krb5_key_data *key_data;
if (n_key_data <= 0)
return NULL;
/* Make a shallow copy of the key data so we can alter it. */
key_data = k5calloc(n_key_data, sizeof(*key_data), &err);
if (key_data_in == NULL)
goto cleanup;
memcpy(key_data, key_data_in, n_key_data * sizeof(*key_data));
/* Unpatched krb5 1.11 and 1.12 cannot decode KrbKey sequences with no salt
* field. For compatibility, always encode a salt field. */
for (i = 0; i < n_key_data; i++) {
if (key_data[i].key_data_ver == 1) {
key_data[i].key_data_ver = 2;
key_data[i].key_data_type[1] = KRB5_KDB_SALTTYPE_NORMAL;
key_data[i].key_data_length[1] = 0;
key_data[i].key_data_contents[1] = NULL;
}
}
/* Find the number of key versions */
for (i = 0; i < n_key_data - 1; i++)
if (key_data[i].key_data_kvno != key_data[i + 1].key_data_kvno)
num_versions++;
ret = (struct berval **) calloc (num_versions + 1, sizeof (struct berval *));
if (ret == NULL) {
err = ENOMEM;
goto cleanup;
}
for (i = 0, last = 0, j = 0, currkvno = key_data[0].key_data_kvno; i < n_key_data; i++) {
krb5_data *code;
if (i == n_key_data - 1 || key_data[i + 1].key_data_kvno != currkvno) {
ret[j] = k5alloc(sizeof(struct berval), &err);
if (ret[j] == NULL)
goto cleanup;
err = asn1_encode_sequence_of_keys(key_data + last,
(krb5_int16)i - last + 1,
mkvno, &code);
if (err)
goto cleanup;
/*CHECK_NULL(ret[j]); */
ret[j]->bv_len = code->length;
ret[j]->bv_val = code->data;
free(code);
j++;
last = i + 1;
if (i < n_key_data - 1)
currkvno = key_data[i + 1].key_data_kvno;
}
}
ret[num_versions] = NULL;
cleanup:
free(key_data);
if (err != 0) {
if (ret != NULL) {
for (i = 0; i <= num_versions; i++)
if (ret[i] != NULL)
free (ret[i]);
free (ret);
ret = NULL;
}
}
return ret;
}
|
krb5_encode_krbsecretkey(krb5_key_data *key_data_in, int n_key_data,
krb5_kvno mkvno) {
struct berval **ret = NULL;
int currkvno;
int num_versions = 1;
int i, j, last;
krb5_error_code err = 0;
krb5_key_data *key_data = NULL;
if (n_key_data < 0)
return NULL;
/* Make a shallow copy of the key data so we can alter it. */
key_data = k5calloc(n_key_data, sizeof(*key_data), &err);
if (key_data == NULL)
goto cleanup;
memcpy(key_data, key_data_in, n_key_data * sizeof(*key_data));
/* Unpatched krb5 1.11 and 1.12 cannot decode KrbKey sequences with no salt
* field. For compatibility, always encode a salt field. */
for (i = 0; i < n_key_data; i++) {
if (key_data[i].key_data_ver == 1) {
key_data[i].key_data_ver = 2;
key_data[i].key_data_type[1] = KRB5_KDB_SALTTYPE_NORMAL;
key_data[i].key_data_length[1] = 0;
key_data[i].key_data_contents[1] = NULL;
}
}
/* Find the number of key versions */
for (i = 0; i < n_key_data - 1; i++)
if (key_data[i].key_data_kvno != key_data[i + 1].key_data_kvno)
num_versions++;
ret = (struct berval **) calloc (num_versions + 1, sizeof (struct berval *));
if (ret == NULL) {
err = ENOMEM;
goto cleanup;
}
for (i = 0, last = 0, j = 0, currkvno = key_data[0].key_data_kvno; i < n_key_data; i++) {
krb5_data *code;
if (i == n_key_data - 1 || key_data[i + 1].key_data_kvno != currkvno) {
ret[j] = k5alloc(sizeof(struct berval), &err);
if (ret[j] == NULL)
goto cleanup;
err = asn1_encode_sequence_of_keys(key_data + last,
(krb5_int16)i - last + 1,
mkvno, &code);
if (err)
goto cleanup;
/*CHECK_NULL(ret[j]); */
ret[j]->bv_len = code->length;
ret[j]->bv_val = code->data;
free(code);
j++;
last = i + 1;
if (i < n_key_data - 1)
currkvno = key_data[i + 1].key_data_kvno;
}
}
ret[num_versions] = NULL;
cleanup:
free(key_data);
if (err != 0) {
if (ret != NULL) {
for (i = 0; ret[i] != NULL; i++)
free (ret[i]);
free (ret);
ret = NULL;
}
}
return ret;
}
|
krb5_ldap_put_principal(krb5_context context, krb5_db_entry *entry,
char **db_args)
{
int l=0, kerberos_principal_object_type=0;
unsigned int ntrees=0, tre=0;
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL, *ent=NULL;
char **subtreelist = NULL;
char *user=NULL, *subtree=NULL, *principal_dn=NULL;
char **values=NULL, *strval[10]={NULL}, errbuf[1024];
char *filtuser=NULL;
struct berval **bersecretkey=NULL;
LDAPMod **mods=NULL;
krb5_boolean create_standalone_prinicipal=FALSE;
krb5_boolean krb_identity_exists=FALSE, establish_links=FALSE;
char *standalone_principal_dn=NULL;
krb5_tl_data *tl_data=NULL;
krb5_key_data **keys=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
osa_princ_ent_rec princ_ent = {0};
xargs_t xargs = {0};
char *polname = NULL;
OPERATION optype;
krb5_boolean found_entry = FALSE;
/* Clear the global error string */
krb5_clear_error_message(context);
SETUP_CONTEXT();
if (ldap_context->lrparams == NULL || ldap_context->container_dn == NULL)
return EINVAL;
/* get ldap handle */
GET_HANDLE();
if (!is_principal_in_realm(ldap_context, entry->princ)) {
st = EINVAL;
k5_setmsg(context, st,
_("Principal does not belong to the default realm"));
goto cleanup;
}
/* get the principal information to act on */
if (((st=krb5_unparse_name(context, entry->princ, &user)) != 0) ||
((st=krb5_ldap_unparse_principal_name(user)) != 0))
goto cleanup;
filtuser = ldap_filter_correct(user);
if (filtuser == NULL) {
st = ENOMEM;
goto cleanup;
}
/* Identity the type of operation, it can be
* add principal or modify principal.
* hack if the entry->mask has KRB_PRINCIPAL flag set
* then it is a add operation
*/
if (entry->mask & KADM5_PRINCIPAL)
optype = ADD_PRINCIPAL;
else
optype = MODIFY_PRINCIPAL;
if (((st=krb5_get_princ_type(context, entry, &kerberos_principal_object_type)) != 0) ||
((st=krb5_get_userdn(context, entry, &principal_dn)) != 0))
goto cleanup;
if ((st=process_db_args(context, db_args, &xargs, optype)) != 0)
goto cleanup;
if (entry->mask & KADM5_LOAD) {
unsigned int tree = 0;
int numlentries = 0;
char *filter = NULL;
/* A load operation is special, will do a mix-in (add krbprinc
* attrs to a non-krb object entry) if an object exists with a
* matching krbprincipalname attribute so try to find existing
* object and set principal_dn. This assumes that the
* krbprincipalname attribute is unique (only one object entry has
* a particular krbprincipalname attribute).
*/
if (asprintf(&filter, FILTER"%s))", filtuser) < 0) {
filter = NULL;
st = ENOMEM;
goto cleanup;
}
/* get the current subtree list */
if ((st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees)) != 0)
goto cleanup;
found_entry = FALSE;
/* search for entry with matching krbprincipalname attribute */
for (tree = 0; found_entry == FALSE && tree < ntrees; ++tree) {
if (principal_dn == NULL) {
LDAP_SEARCH_1(subtreelist[tree], ldap_context->lrparams->search_scope, filter, principal_attributes, IGNORE_STATUS);
} else {
/* just look for entry with principal_dn */
LDAP_SEARCH_1(principal_dn, LDAP_SCOPE_BASE, filter, principal_attributes, IGNORE_STATUS);
}
if (st == LDAP_SUCCESS) {
numlentries = ldap_count_entries(ld, result);
if (numlentries > 1) {
free(filter);
st = EINVAL;
k5_setmsg(context, st,
_("operation can not continue, more than one "
"entry with principal name \"%s\" found"),
user);
goto cleanup;
} else if (numlentries == 1) {
found_entry = TRUE;
if (principal_dn == NULL) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
/* setting principal_dn will cause that entry to be modified further down */
if ((principal_dn = ldap_get_dn(ld, ent)) == NULL) {
ldap_get_option (ld, LDAP_OPT_RESULT_CODE, &st);
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
}
}
}
} else if (st != LDAP_NO_SUCH_OBJECT) {
/* could not perform search, return with failure */
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
ldap_msgfree(result);
result = NULL;
/*
* If it isn't found then assume a standalone princ entry is to
* be created.
*/
} /* end for (tree = 0; principal_dn == ... */
free(filter);
if (found_entry == FALSE && principal_dn != NULL) {
/*
* if principal_dn is null then there is code further down to
* deal with setting standalone_principal_dn. Also note that
* this will set create_standalone_prinicipal true for
* non-mix-in entries which is okay if loading from a dump.
*/
create_standalone_prinicipal = TRUE;
standalone_principal_dn = strdup(principal_dn);
CHECK_NULL(standalone_principal_dn);
}
} /* end if (entry->mask & KADM5_LOAD */
/* time to generate the DN information with the help of
* containerdn, principalcontainerreference or
* realmcontainerdn information
*/
if (principal_dn == NULL && xargs.dn == NULL) { /* creation of standalone principal */
/* get the subtree information */
if (entry->princ->length == 2 && entry->princ->data[0].length == strlen("krbtgt") &&
strncmp(entry->princ->data[0].data, "krbtgt", entry->princ->data[0].length) == 0) {
/* if the principal is a inter-realm principal, always created in the realm container */
subtree = strdup(ldap_context->lrparams->realmdn);
} else if (xargs.containerdn) {
if ((st=checkattributevalue(ld, xargs.containerdn, NULL, NULL, NULL)) != 0) {
if (st == KRB5_KDB_NOENTRY || st == KRB5_KDB_CONSTRAINT_VIOLATION) {
int ost = st;
st = EINVAL;
k5_prependmsg(context, ost, st, _("'%s' not found"),
xargs.containerdn);
}
goto cleanup;
}
subtree = strdup(xargs.containerdn);
} else if (ldap_context->lrparams->containerref && strlen(ldap_context->lrparams->containerref) != 0) {
/*
* Here the subtree should be changed with
* principalcontainerreference attribute value
*/
subtree = strdup(ldap_context->lrparams->containerref);
} else {
subtree = strdup(ldap_context->lrparams->realmdn);
}
CHECK_NULL(subtree);
if (asprintf(&standalone_principal_dn, "krbprincipalname=%s,%s",
filtuser, subtree) < 0)
standalone_principal_dn = NULL;
CHECK_NULL(standalone_principal_dn);
/*
* free subtree when you are done using the subtree
* set the boolean create_standalone_prinicipal to TRUE
*/
create_standalone_prinicipal = TRUE;
free(subtree);
subtree = NULL;
}
/*
* If the DN information is presented by the user, time to
* validate the input to ensure that the DN falls under
* any of the subtrees
*/
if (xargs.dn_from_kbd == TRUE) {
/* make sure the DN falls in the subtree */
int dnlen=0, subtreelen=0;
char *dn=NULL;
krb5_boolean outofsubtree=TRUE;
if (xargs.dn != NULL) {
dn = xargs.dn;
} else if (xargs.linkdn != NULL) {
dn = xargs.linkdn;
} else if (standalone_principal_dn != NULL) {
/*
* Even though the standalone_principal_dn is constructed
* within this function, there is the containerdn input
* from the user that can become part of the it.
*/
dn = standalone_principal_dn;
}
/* Get the current subtree list if we haven't already done so. */
if (subtreelist == NULL) {
st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees);
if (st)
goto cleanup;
}
for (tre=0; tre<ntrees; ++tre) {
if (subtreelist[tre] == NULL || strlen(subtreelist[tre]) == 0) {
outofsubtree = FALSE;
break;
} else {
dnlen = strlen (dn);
subtreelen = strlen(subtreelist[tre]);
if ((dnlen >= subtreelen) && (strcasecmp((dn + dnlen - subtreelen), subtreelist[tre]) == 0)) {
outofsubtree = FALSE;
break;
}
}
}
if (outofsubtree == TRUE) {
st = EINVAL;
k5_setmsg(context, st, _("DN is out of the realm subtree"));
goto cleanup;
}
/*
* dn value will be set either by dn, linkdn or the standalone_principal_dn
* In the first 2 cases, the dn should be existing and in the last case we
* are supposed to create the ldap object. so the below should not be
* executed for the last case.
*/
if (standalone_principal_dn == NULL) {
/*
* If the ldap object is missing, this results in an error.
*/
/*
* Search for krbprincipalname attribute here.
* This is to find if a kerberos identity is already present
* on the ldap object, in which case adding a kerberos identity
* on the ldap object should result in an error.
*/
char *attributes[]={"krbticketpolicyreference", "krbprincipalname", NULL};
ldap_msgfree(result);
result = NULL;
LDAP_SEARCH_1(dn, LDAP_SCOPE_BASE, 0, attributes, IGNORE_STATUS);
if (st == LDAP_SUCCESS) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
if ((values=ldap_get_values(ld, ent, "krbticketpolicyreference")) != NULL) {
ldap_value_free(values);
}
if ((values=ldap_get_values(ld, ent, "krbprincipalname")) != NULL) {
krb_identity_exists = TRUE;
ldap_value_free(values);
}
}
} else {
st = set_ldap_error(context, st, OP_SEARCH);
goto cleanup;
}
}
}
/*
* If xargs.dn is set then the request is to add a
* kerberos principal on a ldap object, but if
* there is one already on the ldap object this
* should result in an error.
*/
if (xargs.dn != NULL && krb_identity_exists == TRUE) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("ldap object is already kerberized"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (xargs.linkdn != NULL) {
/*
* link information can be changed using modprinc.
* However, link information can be changed only on the
* standalone kerberos principal objects. A standalone
* kerberos principal object is of type krbprincipal
* structural objectclass.
*
* NOTE: kerberos principals on an ldap object can't be
* linked to other ldap objects.
*/
if (optype == MODIFY_PRINCIPAL &&
kerberos_principal_object_type != KDB_STANDALONE_PRINCIPAL_OBJECT) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("link information can not be set/updated as the "
"kerberos principal belongs to an ldap object"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
/*
* Check the link information. If there is already a link
* existing then this operation is not allowed.
*/
{
char **linkdns=NULL;
int j=0;
if ((st=krb5_get_linkdn(context, entry, &linkdns)) != 0) {
snprintf(errbuf, sizeof(errbuf),
_("Failed getting object references"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (linkdns != NULL) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("kerberos principal is already linked to a ldap "
"object"));
k5_setmsg(context, st, "%s", errbuf);
for (j=0; linkdns[j] != NULL; ++j)
free (linkdns[j]);
free (linkdns);
goto cleanup;
}
}
establish_links = TRUE;
}
if (entry->mask & KADM5_LAST_SUCCESS) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_success)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastSuccessfulAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_LAST_FAILED) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_failed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastFailedAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free(strval[0]);
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT) {
krb5_kvno fail_auth_count;
fail_auth_count = entry->fail_auth_count;
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
fail_auth_count++;
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_REPLACE,
fail_auth_count);
if (st != 0)
goto cleanup;
} else if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT) {
int attr_mask = 0;
krb5_boolean has_fail_count;
/* Check if the krbLoginFailedCount attribute exists. (Through
* krb5 1.8.1, it wasn't set in new entries.) */
st = krb5_get_attributes_mask(context, entry, &attr_mask);
if (st != 0)
goto cleanup;
has_fail_count = ((attr_mask & KDB_FAIL_AUTH_COUNT_ATTR) != 0);
/*
* If the client library and server supports RFC 4525,
* then use it to increment by one the value of the
* krbLoginFailedCount attribute. Otherwise, assert the
* (provided) old value by deleting it before adding.
*/
#ifdef LDAP_MOD_INCREMENT
if (ldap_server_handle->server_info->modify_increment &&
has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_INCREMENT, 1);
if (st != 0)
goto cleanup;
} else {
#endif /* LDAP_MOD_INCREMENT */
if (has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods,
"krbLoginFailedCount",
LDAP_MOD_DELETE,
entry->fail_auth_count);
if (st != 0)
goto cleanup;
}
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD,
entry->fail_auth_count + 1);
if (st != 0)
goto cleanup;
#ifdef LDAP_MOD_INCREMENT
}
#endif
} else if (optype == ADD_PRINCIPAL) {
/* Initialize krbLoginFailedCount in new entries to help avoid a
* race during the first failed login. */
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD, 0);
}
if (entry->mask & KADM5_MAX_LIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxticketlife", LDAP_MOD_REPLACE, entry->max_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_MAX_RLIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxrenewableage", LDAP_MOD_REPLACE,
entry->max_renewable_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_ATTRIBUTES) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbticketflags", LDAP_MOD_REPLACE,
entry->attributes)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINCIPAL) {
memset(strval, 0, sizeof(strval));
strval[0] = user;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalname", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINC_EXPIRE_TIME) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalexpiration", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_PW_EXPIRATION) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpasswordexpiration",
LDAP_MOD_REPLACE,
strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_POLICY) {
memset(&princ_ent, 0, sizeof(princ_ent));
for (tl_data=entry->tl_data; tl_data; tl_data=tl_data->tl_data_next) {
if (tl_data->tl_data_type == KRB5_TL_KADM_DATA) {
if ((st = krb5_lookup_tl_kadm_data(tl_data, &princ_ent)) != 0) {
goto cleanup;
}
break;
}
}
if (princ_ent.aux_attributes & KADM5_POLICY) {
memset(strval, 0, sizeof(strval));
if ((st = krb5_ldap_name_to_policydn (context, princ_ent.policy, &polname)) != 0)
goto cleanup;
strval[0] = polname;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
st = EINVAL;
k5_setmsg(context, st, "Password policy value null");
goto cleanup;
}
} else if (entry->mask & KADM5_LOAD && found_entry == TRUE) {
/*
* a load is special in that existing entries must have attrs that
* removed.
*/
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_POLICY_CLR) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_KEY_DATA || entry->mask & KADM5_KVNO) {
krb5_kvno mkvno;
if ((st=krb5_dbe_lookup_mkvno(context, entry, &mkvno)) != 0)
goto cleanup;
bersecretkey = krb5_encode_krbsecretkey (entry->key_data,
entry->n_key_data, mkvno);
if ((st=krb5_add_ber_mem_ldap_mod(&mods, "krbprincipalkey",
LDAP_MOD_REPLACE | LDAP_MOD_BVALUES, bersecretkey)) != 0)
goto cleanup;
if (!(entry->mask & KADM5_PRINCIPAL)) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods,
"krbpasswordexpiration",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
/* Update last password change whenever a new key is set */
{
krb5_timestamp last_pw_changed;
if ((st=krb5_dbe_lookup_last_pwd_change(context, entry,
&last_pw_changed)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(last_pw_changed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastPwdChange",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
} /* Modify Key data ends here */
/* Set tl_data */
if (entry->tl_data != NULL) {
int count = 0;
struct berval **ber_tl_data = NULL;
krb5_tl_data *ptr;
krb5_timestamp unlock_time;
for (ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
count++;
}
if (count != 0) {
int j;
ber_tl_data = (struct berval **) calloc (count + 1,
sizeof (struct berval*));
if (ber_tl_data == NULL) {
st = ENOMEM;
goto cleanup;
}
for (j = 0, ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
/* Ignore tl_data that are stored in separate directory
* attributes */
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
if ((st = tl_data2berval (ptr, &ber_tl_data[j])) != 0)
break;
j++;
}
if (st == 0) {
ber_tl_data[count] = NULL;
st=krb5_add_ber_mem_ldap_mod(&mods, "krbExtraData",
LDAP_MOD_REPLACE |
LDAP_MOD_BVALUES, ber_tl_data);
}
for (j = 0; ber_tl_data[j] != NULL; j++) {
free(ber_tl_data[j]->bv_val);
free(ber_tl_data[j]);
}
free(ber_tl_data);
if (st != 0)
goto cleanup;
}
if ((st=krb5_dbe_lookup_last_admin_unlock(context, entry,
&unlock_time)) != 0)
goto cleanup;
if (unlock_time != 0) {
/* Update last admin unlock */
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(unlock_time)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastAdminUnlock",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
}
/* Directory specific attribute */
if (xargs.tktpolicydn != NULL) {
int tmask=0;
if (strlen(xargs.tktpolicydn) != 0) {
st = checkattributevalue(ld, xargs.tktpolicydn, "objectclass", policyclass, &tmask);
CHECK_CLASS_VALIDITY(st, tmask, _("ticket policy object value: "));
strval[0] = xargs.tktpolicydn;
strval[1] = NULL;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
/* if xargs.tktpolicydn is a empty string, then delete
* already existing krbticketpolicyreference attr */
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
}
if (establish_links == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = xargs.linkdn;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbObjectReferences", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
/*
* in case mods is NULL then return
* not sure but can happen in a modprinc
* so no need to return an error
* addprinc will at least have the principal name
* and the keys passed in
*/
if (mods == NULL)
goto cleanup;
if (create_standalone_prinicipal == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = "krbprincipal";
strval[1] = "krbprincipalaux";
strval[2] = "krbTicketPolicyAux";
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
if (st == LDAP_ALREADY_EXISTS && entry->mask & KADM5_LOAD) {
/* a load operation must replace an existing entry */
st = ldap_delete_ext_s(ld, standalone_principal_dn, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf),
_("Principal delete failed (trying to replace "
"entry): %s"), ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
} else {
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
}
}
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("Principal add failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
} else {
/*
* Here existing ldap object is modified and can be related
* to any attribute, so always ensure that the ldap
* object is extended with all the kerberos related
* objectclasses so that there are no constraint
* violations.
*/
{
char *attrvalues[] = {"krbprincipalaux", "krbTicketPolicyAux", NULL};
int p, q, r=0, amask=0;
if ((st=checkattributevalue(ld, (xargs.dn) ? xargs.dn : principal_dn,
"objectclass", attrvalues, &amask)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
for (p=1, q=0; p<=2; p<<=1, ++q) {
if ((p & amask) == 0)
strval[r++] = attrvalues[q];
}
if (r != 0) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
}
}
if (xargs.dn != NULL)
st=ldap_modify_ext_s(ld, xargs.dn, mods, NULL, NULL);
else
st = ldap_modify_ext_s(ld, principal_dn, mods, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("User modification failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_MOD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
entry->fail_auth_count++;
}
cleanup:
if (user)
free(user);
if (filtuser)
free(filtuser);
free_xargs(xargs);
if (standalone_principal_dn)
free(standalone_principal_dn);
if (principal_dn)
free (principal_dn);
if (polname != NULL)
free(polname);
for (tre = 0; tre < ntrees; tre++)
free(subtreelist[tre]);
free(subtreelist);
if (subtree)
free (subtree);
if (bersecretkey) {
for (l=0; bersecretkey[l]; ++l) {
if (bersecretkey[l]->bv_val)
free (bersecretkey[l]->bv_val);
free (bersecretkey[l]);
}
free (bersecretkey);
}
if (keys)
free (keys);
ldap_mods_free(mods, 1);
ldap_osa_free_princ_ent(&princ_ent);
ldap_msgfree(result);
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return(st);
}
|
krb5_ldap_put_principal(krb5_context context, krb5_db_entry *entry,
char **db_args)
{
int l=0, kerberos_principal_object_type=0;
unsigned int ntrees=0, tre=0;
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL, *ent=NULL;
char **subtreelist = NULL;
char *user=NULL, *subtree=NULL, *principal_dn=NULL;
char **values=NULL, *strval[10]={NULL}, errbuf[1024];
char *filtuser=NULL;
struct berval **bersecretkey=NULL;
LDAPMod **mods=NULL;
krb5_boolean create_standalone_prinicipal=FALSE;
krb5_boolean krb_identity_exists=FALSE, establish_links=FALSE;
char *standalone_principal_dn=NULL;
krb5_tl_data *tl_data=NULL;
krb5_key_data **keys=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
osa_princ_ent_rec princ_ent = {0};
xargs_t xargs = {0};
char *polname = NULL;
OPERATION optype;
krb5_boolean found_entry = FALSE;
/* Clear the global error string */
krb5_clear_error_message(context);
SETUP_CONTEXT();
if (ldap_context->lrparams == NULL || ldap_context->container_dn == NULL)
return EINVAL;
/* get ldap handle */
GET_HANDLE();
if (!is_principal_in_realm(ldap_context, entry->princ)) {
st = EINVAL;
k5_setmsg(context, st,
_("Principal does not belong to the default realm"));
goto cleanup;
}
/* get the principal information to act on */
if (((st=krb5_unparse_name(context, entry->princ, &user)) != 0) ||
((st=krb5_ldap_unparse_principal_name(user)) != 0))
goto cleanup;
filtuser = ldap_filter_correct(user);
if (filtuser == NULL) {
st = ENOMEM;
goto cleanup;
}
/* Identity the type of operation, it can be
* add principal or modify principal.
* hack if the entry->mask has KRB_PRINCIPAL flag set
* then it is a add operation
*/
if (entry->mask & KADM5_PRINCIPAL)
optype = ADD_PRINCIPAL;
else
optype = MODIFY_PRINCIPAL;
if (((st=krb5_get_princ_type(context, entry, &kerberos_principal_object_type)) != 0) ||
((st=krb5_get_userdn(context, entry, &principal_dn)) != 0))
goto cleanup;
if ((st=process_db_args(context, db_args, &xargs, optype)) != 0)
goto cleanup;
if (entry->mask & KADM5_LOAD) {
unsigned int tree = 0;
int numlentries = 0;
char *filter = NULL;
/* A load operation is special, will do a mix-in (add krbprinc
* attrs to a non-krb object entry) if an object exists with a
* matching krbprincipalname attribute so try to find existing
* object and set principal_dn. This assumes that the
* krbprincipalname attribute is unique (only one object entry has
* a particular krbprincipalname attribute).
*/
if (asprintf(&filter, FILTER"%s))", filtuser) < 0) {
filter = NULL;
st = ENOMEM;
goto cleanup;
}
/* get the current subtree list */
if ((st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees)) != 0)
goto cleanup;
found_entry = FALSE;
/* search for entry with matching krbprincipalname attribute */
for (tree = 0; found_entry == FALSE && tree < ntrees; ++tree) {
if (principal_dn == NULL) {
LDAP_SEARCH_1(subtreelist[tree], ldap_context->lrparams->search_scope, filter, principal_attributes, IGNORE_STATUS);
} else {
/* just look for entry with principal_dn */
LDAP_SEARCH_1(principal_dn, LDAP_SCOPE_BASE, filter, principal_attributes, IGNORE_STATUS);
}
if (st == LDAP_SUCCESS) {
numlentries = ldap_count_entries(ld, result);
if (numlentries > 1) {
free(filter);
st = EINVAL;
k5_setmsg(context, st,
_("operation can not continue, more than one "
"entry with principal name \"%s\" found"),
user);
goto cleanup;
} else if (numlentries == 1) {
found_entry = TRUE;
if (principal_dn == NULL) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
/* setting principal_dn will cause that entry to be modified further down */
if ((principal_dn = ldap_get_dn(ld, ent)) == NULL) {
ldap_get_option (ld, LDAP_OPT_RESULT_CODE, &st);
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
}
}
}
} else if (st != LDAP_NO_SUCH_OBJECT) {
/* could not perform search, return with failure */
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
ldap_msgfree(result);
result = NULL;
/*
* If it isn't found then assume a standalone princ entry is to
* be created.
*/
} /* end for (tree = 0; principal_dn == ... */
free(filter);
if (found_entry == FALSE && principal_dn != NULL) {
/*
* if principal_dn is null then there is code further down to
* deal with setting standalone_principal_dn. Also note that
* this will set create_standalone_prinicipal true for
* non-mix-in entries which is okay if loading from a dump.
*/
create_standalone_prinicipal = TRUE;
standalone_principal_dn = strdup(principal_dn);
CHECK_NULL(standalone_principal_dn);
}
} /* end if (entry->mask & KADM5_LOAD */
/* time to generate the DN information with the help of
* containerdn, principalcontainerreference or
* realmcontainerdn information
*/
if (principal_dn == NULL && xargs.dn == NULL) { /* creation of standalone principal */
/* get the subtree information */
if (entry->princ->length == 2 && entry->princ->data[0].length == strlen("krbtgt") &&
strncmp(entry->princ->data[0].data, "krbtgt", entry->princ->data[0].length) == 0) {
/* if the principal is a inter-realm principal, always created in the realm container */
subtree = strdup(ldap_context->lrparams->realmdn);
} else if (xargs.containerdn) {
if ((st=checkattributevalue(ld, xargs.containerdn, NULL, NULL, NULL)) != 0) {
if (st == KRB5_KDB_NOENTRY || st == KRB5_KDB_CONSTRAINT_VIOLATION) {
int ost = st;
st = EINVAL;
k5_prependmsg(context, ost, st, _("'%s' not found"),
xargs.containerdn);
}
goto cleanup;
}
subtree = strdup(xargs.containerdn);
} else if (ldap_context->lrparams->containerref && strlen(ldap_context->lrparams->containerref) != 0) {
/*
* Here the subtree should be changed with
* principalcontainerreference attribute value
*/
subtree = strdup(ldap_context->lrparams->containerref);
} else {
subtree = strdup(ldap_context->lrparams->realmdn);
}
CHECK_NULL(subtree);
if (asprintf(&standalone_principal_dn, "krbprincipalname=%s,%s",
filtuser, subtree) < 0)
standalone_principal_dn = NULL;
CHECK_NULL(standalone_principal_dn);
/*
* free subtree when you are done using the subtree
* set the boolean create_standalone_prinicipal to TRUE
*/
create_standalone_prinicipal = TRUE;
free(subtree);
subtree = NULL;
}
/*
* If the DN information is presented by the user, time to
* validate the input to ensure that the DN falls under
* any of the subtrees
*/
if (xargs.dn_from_kbd == TRUE) {
/* make sure the DN falls in the subtree */
int dnlen=0, subtreelen=0;
char *dn=NULL;
krb5_boolean outofsubtree=TRUE;
if (xargs.dn != NULL) {
dn = xargs.dn;
} else if (xargs.linkdn != NULL) {
dn = xargs.linkdn;
} else if (standalone_principal_dn != NULL) {
/*
* Even though the standalone_principal_dn is constructed
* within this function, there is the containerdn input
* from the user that can become part of the it.
*/
dn = standalone_principal_dn;
}
/* Get the current subtree list if we haven't already done so. */
if (subtreelist == NULL) {
st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees);
if (st)
goto cleanup;
}
for (tre=0; tre<ntrees; ++tre) {
if (subtreelist[tre] == NULL || strlen(subtreelist[tre]) == 0) {
outofsubtree = FALSE;
break;
} else {
dnlen = strlen (dn);
subtreelen = strlen(subtreelist[tre]);
if ((dnlen >= subtreelen) && (strcasecmp((dn + dnlen - subtreelen), subtreelist[tre]) == 0)) {
outofsubtree = FALSE;
break;
}
}
}
if (outofsubtree == TRUE) {
st = EINVAL;
k5_setmsg(context, st, _("DN is out of the realm subtree"));
goto cleanup;
}
/*
* dn value will be set either by dn, linkdn or the standalone_principal_dn
* In the first 2 cases, the dn should be existing and in the last case we
* are supposed to create the ldap object. so the below should not be
* executed for the last case.
*/
if (standalone_principal_dn == NULL) {
/*
* If the ldap object is missing, this results in an error.
*/
/*
* Search for krbprincipalname attribute here.
* This is to find if a kerberos identity is already present
* on the ldap object, in which case adding a kerberos identity
* on the ldap object should result in an error.
*/
char *attributes[]={"krbticketpolicyreference", "krbprincipalname", NULL};
ldap_msgfree(result);
result = NULL;
LDAP_SEARCH_1(dn, LDAP_SCOPE_BASE, 0, attributes, IGNORE_STATUS);
if (st == LDAP_SUCCESS) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
if ((values=ldap_get_values(ld, ent, "krbticketpolicyreference")) != NULL) {
ldap_value_free(values);
}
if ((values=ldap_get_values(ld, ent, "krbprincipalname")) != NULL) {
krb_identity_exists = TRUE;
ldap_value_free(values);
}
}
} else {
st = set_ldap_error(context, st, OP_SEARCH);
goto cleanup;
}
}
}
/*
* If xargs.dn is set then the request is to add a
* kerberos principal on a ldap object, but if
* there is one already on the ldap object this
* should result in an error.
*/
if (xargs.dn != NULL && krb_identity_exists == TRUE) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("ldap object is already kerberized"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (xargs.linkdn != NULL) {
/*
* link information can be changed using modprinc.
* However, link information can be changed only on the
* standalone kerberos principal objects. A standalone
* kerberos principal object is of type krbprincipal
* structural objectclass.
*
* NOTE: kerberos principals on an ldap object can't be
* linked to other ldap objects.
*/
if (optype == MODIFY_PRINCIPAL &&
kerberos_principal_object_type != KDB_STANDALONE_PRINCIPAL_OBJECT) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("link information can not be set/updated as the "
"kerberos principal belongs to an ldap object"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
/*
* Check the link information. If there is already a link
* existing then this operation is not allowed.
*/
{
char **linkdns=NULL;
int j=0;
if ((st=krb5_get_linkdn(context, entry, &linkdns)) != 0) {
snprintf(errbuf, sizeof(errbuf),
_("Failed getting object references"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (linkdns != NULL) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("kerberos principal is already linked to a ldap "
"object"));
k5_setmsg(context, st, "%s", errbuf);
for (j=0; linkdns[j] != NULL; ++j)
free (linkdns[j]);
free (linkdns);
goto cleanup;
}
}
establish_links = TRUE;
}
if (entry->mask & KADM5_LAST_SUCCESS) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_success)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastSuccessfulAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_LAST_FAILED) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_failed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastFailedAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free(strval[0]);
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT) {
krb5_kvno fail_auth_count;
fail_auth_count = entry->fail_auth_count;
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
fail_auth_count++;
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_REPLACE,
fail_auth_count);
if (st != 0)
goto cleanup;
} else if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT) {
int attr_mask = 0;
krb5_boolean has_fail_count;
/* Check if the krbLoginFailedCount attribute exists. (Through
* krb5 1.8.1, it wasn't set in new entries.) */
st = krb5_get_attributes_mask(context, entry, &attr_mask);
if (st != 0)
goto cleanup;
has_fail_count = ((attr_mask & KDB_FAIL_AUTH_COUNT_ATTR) != 0);
/*
* If the client library and server supports RFC 4525,
* then use it to increment by one the value of the
* krbLoginFailedCount attribute. Otherwise, assert the
* (provided) old value by deleting it before adding.
*/
#ifdef LDAP_MOD_INCREMENT
if (ldap_server_handle->server_info->modify_increment &&
has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_INCREMENT, 1);
if (st != 0)
goto cleanup;
} else {
#endif /* LDAP_MOD_INCREMENT */
if (has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods,
"krbLoginFailedCount",
LDAP_MOD_DELETE,
entry->fail_auth_count);
if (st != 0)
goto cleanup;
}
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD,
entry->fail_auth_count + 1);
if (st != 0)
goto cleanup;
#ifdef LDAP_MOD_INCREMENT
}
#endif
} else if (optype == ADD_PRINCIPAL) {
/* Initialize krbLoginFailedCount in new entries to help avoid a
* race during the first failed login. */
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD, 0);
}
if (entry->mask & KADM5_MAX_LIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxticketlife", LDAP_MOD_REPLACE, entry->max_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_MAX_RLIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxrenewableage", LDAP_MOD_REPLACE,
entry->max_renewable_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_ATTRIBUTES) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbticketflags", LDAP_MOD_REPLACE,
entry->attributes)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINCIPAL) {
memset(strval, 0, sizeof(strval));
strval[0] = user;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalname", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINC_EXPIRE_TIME) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalexpiration", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_PW_EXPIRATION) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpasswordexpiration",
LDAP_MOD_REPLACE,
strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_POLICY) {
memset(&princ_ent, 0, sizeof(princ_ent));
for (tl_data=entry->tl_data; tl_data; tl_data=tl_data->tl_data_next) {
if (tl_data->tl_data_type == KRB5_TL_KADM_DATA) {
if ((st = krb5_lookup_tl_kadm_data(tl_data, &princ_ent)) != 0) {
goto cleanup;
}
break;
}
}
if (princ_ent.aux_attributes & KADM5_POLICY) {
memset(strval, 0, sizeof(strval));
if ((st = krb5_ldap_name_to_policydn (context, princ_ent.policy, &polname)) != 0)
goto cleanup;
strval[0] = polname;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
st = EINVAL;
k5_setmsg(context, st, "Password policy value null");
goto cleanup;
}
} else if (entry->mask & KADM5_LOAD && found_entry == TRUE) {
/*
* a load is special in that existing entries must have attrs that
* removed.
*/
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_POLICY_CLR) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_KEY_DATA || entry->mask & KADM5_KVNO) {
krb5_kvno mkvno;
if ((st=krb5_dbe_lookup_mkvno(context, entry, &mkvno)) != 0)
goto cleanup;
bersecretkey = krb5_encode_krbsecretkey (entry->key_data,
entry->n_key_data, mkvno);
if (bersecretkey == NULL) {
st = ENOMEM;
goto cleanup;
}
/* An empty list of bervals is only accepted for modify operations,
* not add operations. */
if (bersecretkey[0] != NULL || !create_standalone_prinicipal) {
st = krb5_add_ber_mem_ldap_mod(&mods, "krbprincipalkey",
LDAP_MOD_REPLACE | LDAP_MOD_BVALUES,
bersecretkey);
if (st != 0)
goto cleanup;
}
if (!(entry->mask & KADM5_PRINCIPAL)) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods,
"krbpasswordexpiration",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
/* Update last password change whenever a new key is set */
{
krb5_timestamp last_pw_changed;
if ((st=krb5_dbe_lookup_last_pwd_change(context, entry,
&last_pw_changed)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(last_pw_changed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastPwdChange",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
} /* Modify Key data ends here */
/* Set tl_data */
if (entry->tl_data != NULL) {
int count = 0;
struct berval **ber_tl_data = NULL;
krb5_tl_data *ptr;
krb5_timestamp unlock_time;
for (ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
count++;
}
if (count != 0) {
int j;
ber_tl_data = (struct berval **) calloc (count + 1,
sizeof (struct berval*));
if (ber_tl_data == NULL) {
st = ENOMEM;
goto cleanup;
}
for (j = 0, ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
/* Ignore tl_data that are stored in separate directory
* attributes */
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
if ((st = tl_data2berval (ptr, &ber_tl_data[j])) != 0)
break;
j++;
}
if (st == 0) {
ber_tl_data[count] = NULL;
st=krb5_add_ber_mem_ldap_mod(&mods, "krbExtraData",
LDAP_MOD_REPLACE |
LDAP_MOD_BVALUES, ber_tl_data);
}
for (j = 0; ber_tl_data[j] != NULL; j++) {
free(ber_tl_data[j]->bv_val);
free(ber_tl_data[j]);
}
free(ber_tl_data);
if (st != 0)
goto cleanup;
}
if ((st=krb5_dbe_lookup_last_admin_unlock(context, entry,
&unlock_time)) != 0)
goto cleanup;
if (unlock_time != 0) {
/* Update last admin unlock */
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(unlock_time)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastAdminUnlock",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
}
/* Directory specific attribute */
if (xargs.tktpolicydn != NULL) {
int tmask=0;
if (strlen(xargs.tktpolicydn) != 0) {
st = checkattributevalue(ld, xargs.tktpolicydn, "objectclass", policyclass, &tmask);
CHECK_CLASS_VALIDITY(st, tmask, _("ticket policy object value: "));
strval[0] = xargs.tktpolicydn;
strval[1] = NULL;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
/* if xargs.tktpolicydn is a empty string, then delete
* already existing krbticketpolicyreference attr */
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
}
if (establish_links == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = xargs.linkdn;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbObjectReferences", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
/*
* in case mods is NULL then return
* not sure but can happen in a modprinc
* so no need to return an error
* addprinc will at least have the principal name
* and the keys passed in
*/
if (mods == NULL)
goto cleanup;
if (create_standalone_prinicipal == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = "krbprincipal";
strval[1] = "krbprincipalaux";
strval[2] = "krbTicketPolicyAux";
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
if (st == LDAP_ALREADY_EXISTS && entry->mask & KADM5_LOAD) {
/* a load operation must replace an existing entry */
st = ldap_delete_ext_s(ld, standalone_principal_dn, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf),
_("Principal delete failed (trying to replace "
"entry): %s"), ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
} else {
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
}
}
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("Principal add failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
} else {
/*
* Here existing ldap object is modified and can be related
* to any attribute, so always ensure that the ldap
* object is extended with all the kerberos related
* objectclasses so that there are no constraint
* violations.
*/
{
char *attrvalues[] = {"krbprincipalaux", "krbTicketPolicyAux", NULL};
int p, q, r=0, amask=0;
if ((st=checkattributevalue(ld, (xargs.dn) ? xargs.dn : principal_dn,
"objectclass", attrvalues, &amask)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
for (p=1, q=0; p<=2; p<<=1, ++q) {
if ((p & amask) == 0)
strval[r++] = attrvalues[q];
}
if (r != 0) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
}
}
if (xargs.dn != NULL)
st=ldap_modify_ext_s(ld, xargs.dn, mods, NULL, NULL);
else
st = ldap_modify_ext_s(ld, principal_dn, mods, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("User modification failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_MOD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
entry->fail_auth_count++;
}
cleanup:
if (user)
free(user);
if (filtuser)
free(filtuser);
free_xargs(xargs);
if (standalone_principal_dn)
free(standalone_principal_dn);
if (principal_dn)
free (principal_dn);
if (polname != NULL)
free(polname);
for (tre = 0; tre < ntrees; tre++)
free(subtreelist[tre]);
free(subtreelist);
if (subtree)
free (subtree);
if (bersecretkey) {
for (l=0; bersecretkey[l]; ++l) {
if (bersecretkey[l]->bv_val)
free (bersecretkey[l]->bv_val);
free (bersecretkey[l]);
}
free (bersecretkey);
}
if (keys)
free (keys);
ldap_mods_free(mods, 1);
ldap_osa_free_princ_ent(&princ_ent);
ldap_msgfree(result);
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return(st);
}
|
krb5_ldap_put_principal(krb5_context context, krb5_db_entry *entry,
char **db_args)
{
int l=0, kerberos_principal_object_type=0;
unsigned int ntrees=0, tre=0;
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL, *ent=NULL;
char **subtreelist = NULL;
char *user=NULL, *subtree=NULL, *principal_dn=NULL;
char **values=NULL, *strval[10]={NULL}, errbuf[1024];
char *filtuser=NULL;
struct berval **bersecretkey=NULL;
LDAPMod **mods=NULL;
krb5_boolean create_standalone_prinicipal=FALSE;
krb5_boolean krb_identity_exists=FALSE, establish_links=FALSE;
char *standalone_principal_dn=NULL;
krb5_tl_data *tl_data=NULL;
krb5_key_data **keys=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
osa_princ_ent_rec princ_ent = {0};
xargs_t xargs = {0};
char *polname = NULL;
OPERATION optype;
krb5_boolean found_entry = FALSE;
/* Clear the global error string */
krb5_clear_error_message(context);
SETUP_CONTEXT();
if (ldap_context->lrparams == NULL || ldap_context->container_dn == NULL)
return EINVAL;
/* get ldap handle */
GET_HANDLE();
if (!is_principal_in_realm(ldap_context, entry->princ)) {
st = EINVAL;
k5_setmsg(context, st,
_("Principal does not belong to the default realm"));
goto cleanup;
}
/* get the principal information to act on */
if (((st=krb5_unparse_name(context, entry->princ, &user)) != 0) ||
((st=krb5_ldap_unparse_principal_name(user)) != 0))
goto cleanup;
filtuser = ldap_filter_correct(user);
if (filtuser == NULL) {
st = ENOMEM;
goto cleanup;
}
/* Identity the type of operation, it can be
* add principal or modify principal.
* hack if the entry->mask has KRB_PRINCIPAL flag set
* then it is a add operation
*/
if (entry->mask & KADM5_PRINCIPAL)
optype = ADD_PRINCIPAL;
else
optype = MODIFY_PRINCIPAL;
if (((st=krb5_get_princ_type(context, entry, &kerberos_principal_object_type)) != 0) ||
((st=krb5_get_userdn(context, entry, &principal_dn)) != 0))
goto cleanup;
if ((st=process_db_args(context, db_args, &xargs, optype)) != 0)
goto cleanup;
if (entry->mask & KADM5_LOAD) {
unsigned int tree = 0;
int numlentries = 0;
char *filter = NULL;
/* A load operation is special, will do a mix-in (add krbprinc
* attrs to a non-krb object entry) if an object exists with a
* matching krbprincipalname attribute so try to find existing
* object and set principal_dn. This assumes that the
* krbprincipalname attribute is unique (only one object entry has
* a particular krbprincipalname attribute).
*/
if (asprintf(&filter, FILTER"%s))", filtuser) < 0) {
filter = NULL;
st = ENOMEM;
goto cleanup;
}
/* get the current subtree list */
if ((st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees)) != 0)
goto cleanup;
found_entry = FALSE;
/* search for entry with matching krbprincipalname attribute */
for (tree = 0; found_entry == FALSE && tree < ntrees; ++tree) {
if (principal_dn == NULL) {
LDAP_SEARCH_1(subtreelist[tree], ldap_context->lrparams->search_scope, filter, principal_attributes, IGNORE_STATUS);
} else {
/* just look for entry with principal_dn */
LDAP_SEARCH_1(principal_dn, LDAP_SCOPE_BASE, filter, principal_attributes, IGNORE_STATUS);
}
if (st == LDAP_SUCCESS) {
numlentries = ldap_count_entries(ld, result);
if (numlentries > 1) {
free(filter);
st = EINVAL;
k5_setmsg(context, st,
_("operation can not continue, more than one "
"entry with principal name \"%s\" found"),
user);
goto cleanup;
} else if (numlentries == 1) {
found_entry = TRUE;
if (principal_dn == NULL) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
/* setting principal_dn will cause that entry to be modified further down */
if ((principal_dn = ldap_get_dn(ld, ent)) == NULL) {
ldap_get_option (ld, LDAP_OPT_RESULT_CODE, &st);
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
}
}
}
} else if (st != LDAP_NO_SUCH_OBJECT) {
/* could not perform search, return with failure */
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
ldap_msgfree(result);
result = NULL;
/*
* If it isn't found then assume a standalone princ entry is to
* be created.
*/
} /* end for (tree = 0; principal_dn == ... */
free(filter);
if (found_entry == FALSE && principal_dn != NULL) {
/*
* if principal_dn is null then there is code further down to
* deal with setting standalone_principal_dn. Also note that
* this will set create_standalone_prinicipal true for
* non-mix-in entries which is okay if loading from a dump.
*/
create_standalone_prinicipal = TRUE;
standalone_principal_dn = strdup(principal_dn);
CHECK_NULL(standalone_principal_dn);
}
} /* end if (entry->mask & KADM5_LOAD */
/* time to generate the DN information with the help of
* containerdn, principalcontainerreference or
* realmcontainerdn information
*/
if (principal_dn == NULL && xargs.dn == NULL) { /* creation of standalone principal */
/* get the subtree information */
if (entry->princ->length == 2 && entry->princ->data[0].length == strlen("krbtgt") &&
strncmp(entry->princ->data[0].data, "krbtgt", entry->princ->data[0].length) == 0) {
/* if the principal is a inter-realm principal, always created in the realm container */
subtree = strdup(ldap_context->lrparams->realmdn);
} else if (xargs.containerdn) {
if ((st=checkattributevalue(ld, xargs.containerdn, NULL, NULL, NULL)) != 0) {
if (st == KRB5_KDB_NOENTRY || st == KRB5_KDB_CONSTRAINT_VIOLATION) {
int ost = st;
st = EINVAL;
k5_prependmsg(context, ost, st, _("'%s' not found"),
xargs.containerdn);
}
goto cleanup;
}
subtree = strdup(xargs.containerdn);
} else if (ldap_context->lrparams->containerref && strlen(ldap_context->lrparams->containerref) != 0) {
/*
* Here the subtree should be changed with
* principalcontainerreference attribute value
*/
subtree = strdup(ldap_context->lrparams->containerref);
} else {
subtree = strdup(ldap_context->lrparams->realmdn);
}
CHECK_NULL(subtree);
if (asprintf(&standalone_principal_dn, "krbprincipalname=%s,%s",
filtuser, subtree) < 0)
standalone_principal_dn = NULL;
CHECK_NULL(standalone_principal_dn);
/*
* free subtree when you are done using the subtree
* set the boolean create_standalone_prinicipal to TRUE
*/
create_standalone_prinicipal = TRUE;
free(subtree);
subtree = NULL;
}
/*
* If the DN information is presented by the user, time to
* validate the input to ensure that the DN falls under
* any of the subtrees
*/
if (xargs.dn_from_kbd == TRUE) {
/* make sure the DN falls in the subtree */
int dnlen=0, subtreelen=0;
char *dn=NULL;
krb5_boolean outofsubtree=TRUE;
if (xargs.dn != NULL) {
dn = xargs.dn;
} else if (xargs.linkdn != NULL) {
dn = xargs.linkdn;
} else if (standalone_principal_dn != NULL) {
/*
* Even though the standalone_principal_dn is constructed
* within this function, there is the containerdn input
* from the user that can become part of the it.
*/
dn = standalone_principal_dn;
}
/* Get the current subtree list if we haven't already done so. */
if (subtreelist == NULL) {
st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees);
if (st)
goto cleanup;
}
for (tre=0; tre<ntrees; ++tre) {
if (subtreelist[tre] == NULL || strlen(subtreelist[tre]) == 0) {
outofsubtree = FALSE;
break;
} else {
dnlen = strlen (dn);
subtreelen = strlen(subtreelist[tre]);
if ((dnlen >= subtreelen) && (strcasecmp((dn + dnlen - subtreelen), subtreelist[tre]) == 0)) {
outofsubtree = FALSE;
break;
}
}
}
if (outofsubtree == TRUE) {
st = EINVAL;
k5_setmsg(context, st, _("DN is out of the realm subtree"));
goto cleanup;
}
/*
* dn value will be set either by dn, linkdn or the standalone_principal_dn
* In the first 2 cases, the dn should be existing and in the last case we
* are supposed to create the ldap object. so the below should not be
* executed for the last case.
*/
if (standalone_principal_dn == NULL) {
/*
* If the ldap object is missing, this results in an error.
*/
/*
* Search for krbprincipalname attribute here.
* This is to find if a kerberos identity is already present
* on the ldap object, in which case adding a kerberos identity
* on the ldap object should result in an error.
*/
char *attributes[]={"krbticketpolicyreference", "krbprincipalname", NULL};
ldap_msgfree(result);
result = NULL;
LDAP_SEARCH_1(dn, LDAP_SCOPE_BASE, 0, attributes, IGNORE_STATUS);
if (st == LDAP_SUCCESS) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
if ((values=ldap_get_values(ld, ent, "krbticketpolicyreference")) != NULL) {
ldap_value_free(values);
}
if ((values=ldap_get_values(ld, ent, "krbprincipalname")) != NULL) {
krb_identity_exists = TRUE;
ldap_value_free(values);
}
}
} else {
st = set_ldap_error(context, st, OP_SEARCH);
goto cleanup;
}
}
}
/*
* If xargs.dn is set then the request is to add a
* kerberos principal on a ldap object, but if
* there is one already on the ldap object this
* should result in an error.
*/
if (xargs.dn != NULL && krb_identity_exists == TRUE) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("ldap object is already kerberized"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (xargs.linkdn != NULL) {
/*
* link information can be changed using modprinc.
* However, link information can be changed only on the
* standalone kerberos principal objects. A standalone
* kerberos principal object is of type krbprincipal
* structural objectclass.
*
* NOTE: kerberos principals on an ldap object can't be
* linked to other ldap objects.
*/
if (optype == MODIFY_PRINCIPAL &&
kerberos_principal_object_type != KDB_STANDALONE_PRINCIPAL_OBJECT) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("link information can not be set/updated as the "
"kerberos principal belongs to an ldap object"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
/*
* Check the link information. If there is already a link
* existing then this operation is not allowed.
*/
{
char **linkdns=NULL;
int j=0;
if ((st=krb5_get_linkdn(context, entry, &linkdns)) != 0) {
snprintf(errbuf, sizeof(errbuf),
_("Failed getting object references"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (linkdns != NULL) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("kerberos principal is already linked to a ldap "
"object"));
k5_setmsg(context, st, "%s", errbuf);
for (j=0; linkdns[j] != NULL; ++j)
free (linkdns[j]);
free (linkdns);
goto cleanup;
}
}
establish_links = TRUE;
}
if (entry->mask & KADM5_LAST_SUCCESS) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_success)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastSuccessfulAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_LAST_FAILED) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_failed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastFailedAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free(strval[0]);
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT) {
krb5_kvno fail_auth_count;
fail_auth_count = entry->fail_auth_count;
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
fail_auth_count++;
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_REPLACE,
fail_auth_count);
if (st != 0)
goto cleanup;
} else if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT) {
int attr_mask = 0;
krb5_boolean has_fail_count;
/* Check if the krbLoginFailedCount attribute exists. (Through
* krb5 1.8.1, it wasn't set in new entries.) */
st = krb5_get_attributes_mask(context, entry, &attr_mask);
if (st != 0)
goto cleanup;
has_fail_count = ((attr_mask & KDB_FAIL_AUTH_COUNT_ATTR) != 0);
/*
* If the client library and server supports RFC 4525,
* then use it to increment by one the value of the
* krbLoginFailedCount attribute. Otherwise, assert the
* (provided) old value by deleting it before adding.
*/
#ifdef LDAP_MOD_INCREMENT
if (ldap_server_handle->server_info->modify_increment &&
has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_INCREMENT, 1);
if (st != 0)
goto cleanup;
} else {
#endif /* LDAP_MOD_INCREMENT */
if (has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods,
"krbLoginFailedCount",
LDAP_MOD_DELETE,
entry->fail_auth_count);
if (st != 0)
goto cleanup;
}
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD,
entry->fail_auth_count + 1);
if (st != 0)
goto cleanup;
#ifdef LDAP_MOD_INCREMENT
}
#endif
} else if (optype == ADD_PRINCIPAL) {
/* Initialize krbLoginFailedCount in new entries to help avoid a
* race during the first failed login. */
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD, 0);
}
if (entry->mask & KADM5_MAX_LIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxticketlife", LDAP_MOD_REPLACE, entry->max_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_MAX_RLIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxrenewableage", LDAP_MOD_REPLACE,
entry->max_renewable_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_ATTRIBUTES) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbticketflags", LDAP_MOD_REPLACE,
entry->attributes)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINCIPAL) {
memset(strval, 0, sizeof(strval));
strval[0] = user;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalname", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINC_EXPIRE_TIME) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalexpiration", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_PW_EXPIRATION) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpasswordexpiration",
LDAP_MOD_REPLACE,
strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_POLICY) {
memset(&princ_ent, 0, sizeof(princ_ent));
for (tl_data=entry->tl_data; tl_data; tl_data=tl_data->tl_data_next) {
if (tl_data->tl_data_type == KRB5_TL_KADM_DATA) {
if ((st = krb5_lookup_tl_kadm_data(tl_data, &princ_ent)) != 0) {
goto cleanup;
}
break;
}
}
if (princ_ent.aux_attributes & KADM5_POLICY) {
memset(strval, 0, sizeof(strval));
if ((st = krb5_ldap_name_to_policydn (context, princ_ent.policy, &polname)) != 0)
goto cleanup;
strval[0] = polname;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
st = EINVAL;
k5_setmsg(context, st, "Password policy value null");
goto cleanup;
}
} else if (entry->mask & KADM5_LOAD && found_entry == TRUE) {
/*
* a load is special in that existing entries must have attrs that
* removed.
*/
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_POLICY_CLR) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_KEY_DATA || entry->mask & KADM5_KVNO) {
krb5_kvno mkvno;
if ((st=krb5_dbe_lookup_mkvno(context, entry, &mkvno)) != 0)
goto cleanup;
bersecretkey = krb5_encode_krbsecretkey (entry->key_data,
entry->n_key_data, mkvno);
if ((st=krb5_add_ber_mem_ldap_mod(&mods, "krbprincipalkey",
LDAP_MOD_REPLACE | LDAP_MOD_BVALUES, bersecretkey)) != 0)
goto cleanup;
if (!(entry->mask & KADM5_PRINCIPAL)) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods,
"krbpasswordexpiration",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
/* Update last password change whenever a new key is set */
{
krb5_timestamp last_pw_changed;
if ((st=krb5_dbe_lookup_last_pwd_change(context, entry,
&last_pw_changed)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(last_pw_changed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastPwdChange",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
} /* Modify Key data ends here */
/* Set tl_data */
if (entry->tl_data != NULL) {
int count = 0;
struct berval **ber_tl_data = NULL;
krb5_tl_data *ptr;
krb5_timestamp unlock_time;
for (ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
count++;
}
if (count != 0) {
int j;
ber_tl_data = (struct berval **) calloc (count + 1,
sizeof (struct berval*));
if (ber_tl_data == NULL) {
st = ENOMEM;
goto cleanup;
}
for (j = 0, ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
/* Ignore tl_data that are stored in separate directory
* attributes */
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
if ((st = tl_data2berval (ptr, &ber_tl_data[j])) != 0)
break;
j++;
}
if (st == 0) {
ber_tl_data[count] = NULL;
st=krb5_add_ber_mem_ldap_mod(&mods, "krbExtraData",
LDAP_MOD_REPLACE |
LDAP_MOD_BVALUES, ber_tl_data);
}
for (j = 0; ber_tl_data[j] != NULL; j++) {
free(ber_tl_data[j]->bv_val);
free(ber_tl_data[j]);
}
free(ber_tl_data);
if (st != 0)
goto cleanup;
}
if ((st=krb5_dbe_lookup_last_admin_unlock(context, entry,
&unlock_time)) != 0)
goto cleanup;
if (unlock_time != 0) {
/* Update last admin unlock */
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(unlock_time)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastAdminUnlock",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
}
/* Directory specific attribute */
if (xargs.tktpolicydn != NULL) {
int tmask=0;
if (strlen(xargs.tktpolicydn) != 0) {
st = checkattributevalue(ld, xargs.tktpolicydn, "objectclass", policyclass, &tmask);
CHECK_CLASS_VALIDITY(st, tmask, _("ticket policy object value: "));
strval[0] = xargs.tktpolicydn;
strval[1] = NULL;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
/* if xargs.tktpolicydn is a empty string, then delete
* already existing krbticketpolicyreference attr */
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
}
if (establish_links == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = xargs.linkdn;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbObjectReferences", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
/*
* in case mods is NULL then return
* not sure but can happen in a modprinc
* so no need to return an error
* addprinc will at least have the principal name
* and the keys passed in
*/
if (mods == NULL)
goto cleanup;
if (create_standalone_prinicipal == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = "krbprincipal";
strval[1] = "krbprincipalaux";
strval[2] = "krbTicketPolicyAux";
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
if (st == LDAP_ALREADY_EXISTS && entry->mask & KADM5_LOAD) {
/* a load operation must replace an existing entry */
st = ldap_delete_ext_s(ld, standalone_principal_dn, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf),
_("Principal delete failed (trying to replace "
"entry): %s"), ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
} else {
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
}
}
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("Principal add failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
} else {
/*
* Here existing ldap object is modified and can be related
* to any attribute, so always ensure that the ldap
* object is extended with all the kerberos related
* objectclasses so that there are no constraint
* violations.
*/
{
char *attrvalues[] = {"krbprincipalaux", "krbTicketPolicyAux", NULL};
int p, q, r=0, amask=0;
if ((st=checkattributevalue(ld, (xargs.dn) ? xargs.dn : principal_dn,
"objectclass", attrvalues, &amask)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
for (p=1, q=0; p<=2; p<<=1, ++q) {
if ((p & amask) == 0)
strval[r++] = attrvalues[q];
}
if (r != 0) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
}
}
if (xargs.dn != NULL)
st=ldap_modify_ext_s(ld, xargs.dn, mods, NULL, NULL);
else
st = ldap_modify_ext_s(ld, principal_dn, mods, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("User modification failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_MOD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
entry->fail_auth_count++;
}
cleanup:
if (user)
free(user);
if (filtuser)
free(filtuser);
free_xargs(xargs);
if (standalone_principal_dn)
free(standalone_principal_dn);
if (principal_dn)
free (principal_dn);
if (polname != NULL)
free(polname);
for (tre = 0; tre < ntrees; tre++)
free(subtreelist[tre]);
free(subtreelist);
if (subtree)
free (subtree);
if (bersecretkey) {
for (l=0; bersecretkey[l]; ++l) {
if (bersecretkey[l]->bv_val)
free (bersecretkey[l]->bv_val);
free (bersecretkey[l]);
}
free (bersecretkey);
}
if (keys)
free (keys);
ldap_mods_free(mods, 1);
ldap_osa_free_princ_ent(&princ_ent);
ldap_msgfree(result);
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return(st);
}
|
krb5_ldap_put_principal(krb5_context context, krb5_db_entry *entry,
char **db_args)
{
int l=0, kerberos_principal_object_type=0;
unsigned int ntrees=0, tre=0;
krb5_error_code st=0, tempst=0;
LDAP *ld=NULL;
LDAPMessage *result=NULL, *ent=NULL;
char **subtreelist = NULL;
char *user=NULL, *subtree=NULL, *principal_dn=NULL;
char *strval[10]={NULL}, errbuf[1024];
char *filtuser=NULL;
struct berval **bersecretkey=NULL;
LDAPMod **mods=NULL;
krb5_boolean create_standalone=FALSE;
krb5_boolean establish_links=FALSE;
char *standalone_principal_dn=NULL;
krb5_tl_data *tl_data=NULL;
krb5_key_data **keys=NULL;
kdb5_dal_handle *dal_handle=NULL;
krb5_ldap_context *ldap_context=NULL;
krb5_ldap_server_handle *ldap_server_handle=NULL;
osa_princ_ent_rec princ_ent = {0};
xargs_t xargs = {0};
char *polname = NULL;
OPERATION optype;
krb5_boolean found_entry = FALSE;
/* Clear the global error string */
krb5_clear_error_message(context);
SETUP_CONTEXT();
if (ldap_context->lrparams == NULL || ldap_context->container_dn == NULL)
return EINVAL;
/* get ldap handle */
GET_HANDLE();
if (!is_principal_in_realm(ldap_context, entry->princ)) {
st = EINVAL;
k5_setmsg(context, st,
_("Principal does not belong to the default realm"));
goto cleanup;
}
/* get the principal information to act on */
if (((st=krb5_unparse_name(context, entry->princ, &user)) != 0) ||
((st=krb5_ldap_unparse_principal_name(user)) != 0))
goto cleanup;
filtuser = ldap_filter_correct(user);
if (filtuser == NULL) {
st = ENOMEM;
goto cleanup;
}
/* Identity the type of operation, it can be
* add principal or modify principal.
* hack if the entry->mask has KRB_PRINCIPAL flag set
* then it is a add operation
*/
if (entry->mask & KADM5_PRINCIPAL)
optype = ADD_PRINCIPAL;
else
optype = MODIFY_PRINCIPAL;
if (((st=krb5_get_princ_type(context, entry, &kerberos_principal_object_type)) != 0) ||
((st=krb5_get_userdn(context, entry, &principal_dn)) != 0))
goto cleanup;
if ((st=process_db_args(context, db_args, &xargs, optype)) != 0)
goto cleanup;
if (entry->mask & KADM5_LOAD) {
unsigned int tree = 0;
int numlentries = 0;
char *filter = NULL;
/* A load operation is special, will do a mix-in (add krbprinc
* attrs to a non-krb object entry) if an object exists with a
* matching krbprincipalname attribute so try to find existing
* object and set principal_dn. This assumes that the
* krbprincipalname attribute is unique (only one object entry has
* a particular krbprincipalname attribute).
*/
if (asprintf(&filter, FILTER"%s))", filtuser) < 0) {
filter = NULL;
st = ENOMEM;
goto cleanup;
}
/* get the current subtree list */
if ((st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees)) != 0)
goto cleanup;
found_entry = FALSE;
/* search for entry with matching krbprincipalname attribute */
for (tree = 0; found_entry == FALSE && tree < ntrees; ++tree) {
if (principal_dn == NULL) {
LDAP_SEARCH_1(subtreelist[tree], ldap_context->lrparams->search_scope, filter, principal_attributes, IGNORE_STATUS);
} else {
/* just look for entry with principal_dn */
LDAP_SEARCH_1(principal_dn, LDAP_SCOPE_BASE, filter, principal_attributes, IGNORE_STATUS);
}
if (st == LDAP_SUCCESS) {
numlentries = ldap_count_entries(ld, result);
if (numlentries > 1) {
free(filter);
st = EINVAL;
k5_setmsg(context, st,
_("operation can not continue, more than one "
"entry with principal name \"%s\" found"),
user);
goto cleanup;
} else if (numlentries == 1) {
found_entry = TRUE;
if (principal_dn == NULL) {
ent = ldap_first_entry(ld, result);
if (ent != NULL) {
/* setting principal_dn will cause that entry to be modified further down */
if ((principal_dn = ldap_get_dn(ld, ent)) == NULL) {
ldap_get_option (ld, LDAP_OPT_RESULT_CODE, &st);
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
}
}
}
} else if (st != LDAP_NO_SUCH_OBJECT) {
/* could not perform search, return with failure */
st = set_ldap_error (context, st, 0);
free(filter);
goto cleanup;
}
ldap_msgfree(result);
result = NULL;
/*
* If it isn't found then assume a standalone princ entry is to
* be created.
*/
} /* end for (tree = 0; principal_dn == ... */
free(filter);
if (found_entry == FALSE && principal_dn != NULL) {
/*
* if principal_dn is null then there is code further down to
* deal with setting standalone_principal_dn. Also note that
* this will set create_standalone true for
* non-mix-in entries which is okay if loading from a dump.
*/
create_standalone = TRUE;
standalone_principal_dn = strdup(principal_dn);
CHECK_NULL(standalone_principal_dn);
}
} /* end if (entry->mask & KADM5_LOAD */
/* time to generate the DN information with the help of
* containerdn, principalcontainerreference or
* realmcontainerdn information
*/
if (principal_dn == NULL && xargs.dn == NULL) { /* creation of standalone principal */
/* get the subtree information */
if (entry->princ->length == 2 && entry->princ->data[0].length == strlen("krbtgt") &&
strncmp(entry->princ->data[0].data, "krbtgt", entry->princ->data[0].length) == 0) {
/* if the principal is a inter-realm principal, always created in the realm container */
subtree = strdup(ldap_context->lrparams->realmdn);
} else if (xargs.containerdn) {
if ((st=checkattributevalue(ld, xargs.containerdn, NULL, NULL, NULL)) != 0) {
if (st == KRB5_KDB_NOENTRY || st == KRB5_KDB_CONSTRAINT_VIOLATION) {
int ost = st;
st = EINVAL;
k5_wrapmsg(context, ost, st, _("'%s' not found"),
xargs.containerdn);
}
goto cleanup;
}
subtree = strdup(xargs.containerdn);
} else if (ldap_context->lrparams->containerref && strlen(ldap_context->lrparams->containerref) != 0) {
/*
* Here the subtree should be changed with
* principalcontainerreference attribute value
*/
subtree = strdup(ldap_context->lrparams->containerref);
} else {
subtree = strdup(ldap_context->lrparams->realmdn);
}
CHECK_NULL(subtree);
if (asprintf(&standalone_principal_dn, "krbprincipalname=%s,%s",
filtuser, subtree) < 0)
standalone_principal_dn = NULL;
CHECK_NULL(standalone_principal_dn);
/*
* free subtree when you are done using the subtree
* set the boolean create_standalone to TRUE
*/
create_standalone = TRUE;
free(subtree);
subtree = NULL;
}
/*
* If the DN information is presented by the user, time to
* validate the input to ensure that the DN falls under
* any of the subtrees
*/
if (xargs.dn_from_kbd == TRUE) {
/* Get the current subtree list if we haven't already done so. */
if (subtreelist == NULL) {
st = krb5_get_subtree_info(ldap_context, &subtreelist, &ntrees);
if (st)
goto cleanup;
}
st = validate_xargs(context, ldap_server_handle, &xargs,
standalone_principal_dn, subtreelist, ntrees);
if (st)
goto cleanup;
}
if (xargs.linkdn != NULL) {
/*
* link information can be changed using modprinc.
* However, link information can be changed only on the
* standalone kerberos principal objects. A standalone
* kerberos principal object is of type krbprincipal
* structural objectclass.
*
* NOTE: kerberos principals on an ldap object can't be
* linked to other ldap objects.
*/
if (optype == MODIFY_PRINCIPAL &&
kerberos_principal_object_type != KDB_STANDALONE_PRINCIPAL_OBJECT) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("link information can not be set/updated as the "
"kerberos principal belongs to an ldap object"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
/*
* Check the link information. If there is already a link
* existing then this operation is not allowed.
*/
{
char **linkdns=NULL;
int j=0;
if ((st=krb5_get_linkdn(context, entry, &linkdns)) != 0) {
snprintf(errbuf, sizeof(errbuf),
_("Failed getting object references"));
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (linkdns != NULL) {
st = EINVAL;
snprintf(errbuf, sizeof(errbuf),
_("kerberos principal is already linked to a ldap "
"object"));
k5_setmsg(context, st, "%s", errbuf);
for (j=0; linkdns[j] != NULL; ++j)
free (linkdns[j]);
free (linkdns);
goto cleanup;
}
}
establish_links = TRUE;
}
if (entry->mask & KADM5_LAST_SUCCESS) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_success)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastSuccessfulAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_LAST_FAILED) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->last_failed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastFailedAuth", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free(strval[0]);
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT) {
krb5_kvno fail_auth_count;
fail_auth_count = entry->fail_auth_count;
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
fail_auth_count++;
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_REPLACE,
fail_auth_count);
if (st != 0)
goto cleanup;
} else if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT) {
int attr_mask = 0;
krb5_boolean has_fail_count;
/* Check if the krbLoginFailedCount attribute exists. (Through
* krb5 1.8.1, it wasn't set in new entries.) */
st = krb5_get_attributes_mask(context, entry, &attr_mask);
if (st != 0)
goto cleanup;
has_fail_count = ((attr_mask & KDB_FAIL_AUTH_COUNT_ATTR) != 0);
/*
* If the client library and server supports RFC 4525,
* then use it to increment by one the value of the
* krbLoginFailedCount attribute. Otherwise, assert the
* (provided) old value by deleting it before adding.
*/
#ifdef LDAP_MOD_INCREMENT
if (ldap_server_handle->server_info->modify_increment &&
has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_INCREMENT, 1);
if (st != 0)
goto cleanup;
} else {
#endif /* LDAP_MOD_INCREMENT */
if (has_fail_count) {
st = krb5_add_int_mem_ldap_mod(&mods,
"krbLoginFailedCount",
LDAP_MOD_DELETE,
entry->fail_auth_count);
if (st != 0)
goto cleanup;
}
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD,
entry->fail_auth_count + 1);
if (st != 0)
goto cleanup;
#ifdef LDAP_MOD_INCREMENT
}
#endif
} else if (optype == ADD_PRINCIPAL) {
/* Initialize krbLoginFailedCount in new entries to help avoid a
* race during the first failed login. */
st = krb5_add_int_mem_ldap_mod(&mods, "krbLoginFailedCount",
LDAP_MOD_ADD, 0);
}
if (entry->mask & KADM5_MAX_LIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxticketlife", LDAP_MOD_REPLACE, entry->max_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_MAX_RLIFE) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbmaxrenewableage", LDAP_MOD_REPLACE,
entry->max_renewable_life)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_ATTRIBUTES) {
if ((st=krb5_add_int_mem_ldap_mod(&mods, "krbticketflags", LDAP_MOD_REPLACE,
entry->attributes)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINCIPAL) {
memset(strval, 0, sizeof(strval));
strval[0] = user;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalname", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_PRINC_EXPIRE_TIME) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbprincipalexpiration", LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_PW_EXPIRATION) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpasswordexpiration",
LDAP_MOD_REPLACE,
strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
if (entry->mask & KADM5_POLICY || entry->mask & KADM5_KEY_HIST) {
memset(&princ_ent, 0, sizeof(princ_ent));
for (tl_data=entry->tl_data; tl_data; tl_data=tl_data->tl_data_next) {
if (tl_data->tl_data_type == KRB5_TL_KADM_DATA) {
if ((st = krb5_lookup_tl_kadm_data(tl_data, &princ_ent)) != 0) {
goto cleanup;
}
break;
}
}
}
if (entry->mask & KADM5_POLICY) {
if (princ_ent.aux_attributes & KADM5_POLICY) {
memset(strval, 0, sizeof(strval));
if ((st = krb5_ldap_name_to_policydn (context, princ_ent.policy, &polname)) != 0)
goto cleanup;
strval[0] = polname;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
st = EINVAL;
k5_setmsg(context, st, "Password policy value null");
goto cleanup;
}
} else if (entry->mask & KADM5_LOAD && found_entry == TRUE) {
/*
* a load is special in that existing entries must have attrs that
* removed.
*/
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_REPLACE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_POLICY_CLR) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbpwdpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
if (entry->mask & KADM5_KEY_HIST) {
bersecretkey = krb5_encode_histkey(&princ_ent);
if (bersecretkey == NULL) {
st = ENOMEM;
goto cleanup;
}
st = krb5_add_ber_mem_ldap_mod(&mods, "krbpwdhistory",
LDAP_MOD_REPLACE | LDAP_MOD_BVALUES,
bersecretkey);
if (st != 0)
goto cleanup;
free_berdata(bersecretkey);
bersecretkey = NULL;
}
if (entry->mask & KADM5_KEY_DATA || entry->mask & KADM5_KVNO) {
krb5_kvno mkvno;
if ((st=krb5_dbe_lookup_mkvno(context, entry, &mkvno)) != 0)
goto cleanup;
bersecretkey = krb5_encode_krbsecretkey (entry->key_data,
entry->n_key_data, mkvno);
if (bersecretkey == NULL) {
st = ENOMEM;
goto cleanup;
}
/* An empty list of bervals is only accepted for modify operations,
* not add operations. */
if (bersecretkey[0] != NULL || !create_standalone) {
st = krb5_add_ber_mem_ldap_mod(&mods, "krbprincipalkey",
LDAP_MOD_REPLACE | LDAP_MOD_BVALUES,
bersecretkey);
if (st != 0)
goto cleanup;
}
if (!(entry->mask & KADM5_PRINCIPAL)) {
memset(strval, 0, sizeof(strval));
if ((strval[0]=getstringtime(entry->pw_expiration)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods,
"krbpasswordexpiration",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
/* Update last password change whenever a new key is set */
{
krb5_timestamp last_pw_changed;
if ((st=krb5_dbe_lookup_last_pwd_change(context, entry,
&last_pw_changed)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(last_pw_changed)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastPwdChange",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
} /* Modify Key data ends here */
/* Auth indicators will also be stored in krbExtraData when processing
* tl_data. */
st = update_ldap_mod_auth_ind(context, entry, &mods);
if (st != 0)
goto cleanup;
/* Set tl_data */
if (entry->tl_data != NULL) {
int count = 0;
struct berval **ber_tl_data = NULL;
krb5_tl_data *ptr;
krb5_timestamp unlock_time;
for (ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
count++;
}
if (count != 0) {
int j;
ber_tl_data = (struct berval **) calloc (count + 1,
sizeof (struct berval*));
if (ber_tl_data == NULL) {
st = ENOMEM;
goto cleanup;
}
for (j = 0, ptr = entry->tl_data; ptr != NULL; ptr = ptr->tl_data_next) {
/* Ignore tl_data that are stored in separate directory
* attributes */
if (ptr->tl_data_type == KRB5_TL_LAST_PWD_CHANGE
#ifdef SECURID
|| ptr->tl_data_type == KRB5_TL_DB_ARGS
#endif
|| ptr->tl_data_type == KRB5_TL_KADM_DATA
|| ptr->tl_data_type == KDB_TL_USER_INFO
|| ptr->tl_data_type == KRB5_TL_CONSTRAINED_DELEGATION_ACL
|| ptr->tl_data_type == KRB5_TL_LAST_ADMIN_UNLOCK)
continue;
if ((st = tl_data2berval (ptr, &ber_tl_data[j])) != 0)
break;
j++;
}
if (st == 0) {
ber_tl_data[count] = NULL;
st=krb5_add_ber_mem_ldap_mod(&mods, "krbExtraData",
LDAP_MOD_REPLACE |
LDAP_MOD_BVALUES, ber_tl_data);
}
free_berdata(ber_tl_data);
if (st != 0)
goto cleanup;
}
if ((st=krb5_dbe_lookup_last_admin_unlock(context, entry,
&unlock_time)) != 0)
goto cleanup;
if (unlock_time != 0) {
/* Update last admin unlock */
memset(strval, 0, sizeof(strval));
if ((strval[0] = getstringtime(unlock_time)) == NULL)
goto cleanup;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbLastAdminUnlock",
LDAP_MOD_REPLACE, strval)) != 0) {
free (strval[0]);
goto cleanup;
}
free (strval[0]);
}
}
/* Directory specific attribute */
if (xargs.tktpolicydn != NULL) {
int tmask=0;
if (strlen(xargs.tktpolicydn) != 0) {
st = checkattributevalue(ld, xargs.tktpolicydn, "objectclass", policyclass, &tmask);
CHECK_CLASS_VALIDITY(st, tmask, _("ticket policy object value: "));
strval[0] = xargs.tktpolicydn;
strval[1] = NULL;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
} else {
/* if xargs.tktpolicydn is a empty string, then delete
* already existing krbticketpolicyreference attr */
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbticketpolicyreference", LDAP_MOD_DELETE, NULL)) != 0)
goto cleanup;
}
}
if (establish_links == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = xargs.linkdn;
if ((st=krb5_add_str_mem_ldap_mod(&mods, "krbObjectReferences", LDAP_MOD_REPLACE, strval)) != 0)
goto cleanup;
}
/*
* in case mods is NULL then return
* not sure but can happen in a modprinc
* so no need to return an error
* addprinc will at least have the principal name
* and the keys passed in
*/
if (mods == NULL)
goto cleanup;
if (create_standalone == TRUE) {
memset(strval, 0, sizeof(strval));
strval[0] = "krbprincipal";
strval[1] = "krbprincipalaux";
strval[2] = "krbTicketPolicyAux";
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
if (st == LDAP_ALREADY_EXISTS && entry->mask & KADM5_LOAD) {
/* a load operation must replace an existing entry */
st = ldap_delete_ext_s(ld, standalone_principal_dn, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf),
_("Principal delete failed (trying to replace "
"entry): %s"), ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
} else {
st = ldap_add_ext_s(ld, standalone_principal_dn, mods, NULL, NULL);
}
}
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("Principal add failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_ADD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
} else {
/*
* Here existing ldap object is modified and can be related
* to any attribute, so always ensure that the ldap
* object is extended with all the kerberos related
* objectclasses so that there are no constraint
* violations.
*/
{
char *attrvalues[] = {"krbprincipalaux", "krbTicketPolicyAux", NULL};
int p, q, r=0, amask=0;
if ((st=checkattributevalue(ld, (xargs.dn) ? xargs.dn : principal_dn,
"objectclass", attrvalues, &amask)) != 0)
goto cleanup;
memset(strval, 0, sizeof(strval));
for (p=1, q=0; p<=2; p<<=1, ++q) {
if ((p & amask) == 0)
strval[r++] = attrvalues[q];
}
if (r != 0) {
if ((st=krb5_add_str_mem_ldap_mod(&mods, "objectclass", LDAP_MOD_ADD, strval)) != 0)
goto cleanup;
}
}
if (xargs.dn != NULL)
st=ldap_modify_ext_s(ld, xargs.dn, mods, NULL, NULL);
else
st = ldap_modify_ext_s(ld, principal_dn, mods, NULL, NULL);
if (st != LDAP_SUCCESS) {
snprintf(errbuf, sizeof(errbuf), _("User modification failed: %s"),
ldap_err2string(st));
st = translate_ldap_error (st, OP_MOD);
k5_setmsg(context, st, "%s", errbuf);
goto cleanup;
}
if (entry->mask & KADM5_FAIL_AUTH_COUNT_INCREMENT)
entry->fail_auth_count++;
}
cleanup:
if (user)
free(user);
if (filtuser)
free(filtuser);
free_xargs(xargs);
if (standalone_principal_dn)
free(standalone_principal_dn);
if (principal_dn)
free (principal_dn);
if (polname != NULL)
free(polname);
for (tre = 0; tre < ntrees; tre++)
free(subtreelist[tre]);
free(subtreelist);
if (subtree)
free (subtree);
if (bersecretkey) {
for (l=0; bersecretkey[l]; ++l) {
if (bersecretkey[l]->bv_val)
free (bersecretkey[l]->bv_val);
free (bersecretkey[l]);
}
free (bersecretkey);
}
if (keys)
free (keys);
ldap_mods_free(mods, 1);
ldap_osa_free_princ_ent(&princ_ent);
ldap_msgfree(result);
krb5_ldap_put_handle_to_pool(ldap_context, ldap_server_handle);
return(st);
}
|
krb5_gss_context_time(minor_status, context_handle, time_rec)
OM_uint32 *minor_status;
gss_ctx_id_t context_handle;
OM_uint32 *time_rec;
{
krb5_error_code code;
krb5_gss_ctx_id_rec *ctx;
krb5_timestamp now;
krb5_deltat lifetime;
ctx = (krb5_gss_ctx_id_rec *) context_handle;
if (! ctx->established) {
*minor_status = KG_CTX_INCOMPLETE;
return(GSS_S_NO_CONTEXT);
}
if ((code = krb5_timeofday(ctx->k5_context, &now))) {
*minor_status = code;
save_error_info(*minor_status, ctx->k5_context);
return(GSS_S_FAILURE);
}
if ((lifetime = ctx->krb_times.endtime - now) <= 0) {
*time_rec = 0;
*minor_status = 0;
return(GSS_S_CONTEXT_EXPIRED);
} else {
*time_rec = lifetime;
*minor_status = 0;
return(GSS_S_COMPLETE);
}
}
|
krb5_gss_context_time(minor_status, context_handle, time_rec)
OM_uint32 *minor_status;
gss_ctx_id_t context_handle;
OM_uint32 *time_rec;
{
krb5_error_code code;
krb5_gss_ctx_id_rec *ctx;
krb5_timestamp now;
krb5_deltat lifetime;
ctx = (krb5_gss_ctx_id_rec *) context_handle;
if (ctx->terminated || !ctx->established) {
*minor_status = KG_CTX_INCOMPLETE;
return(GSS_S_NO_CONTEXT);
}
if ((code = krb5_timeofday(ctx->k5_context, &now))) {
*minor_status = code;
save_error_info(*minor_status, ctx->k5_context);
return(GSS_S_FAILURE);
}
if ((lifetime = ctx->krb_times.endtime - now) <= 0) {
*time_rec = 0;
*minor_status = 0;
return(GSS_S_CONTEXT_EXPIRED);
} else {
*time_rec = lifetime;
*minor_status = 0;
return(GSS_S_COMPLETE);
}
}
|
krb5_gss_inquire_sec_context_by_oid (OM_uint32 *minor_status,
const gss_ctx_id_t context_handle,
const gss_OID desired_object,
gss_buffer_set_t *data_set)
{
krb5_gss_ctx_id_rec *ctx;
size_t i;
if (minor_status == NULL)
return GSS_S_CALL_INACCESSIBLE_WRITE;
*minor_status = 0;
if (desired_object == GSS_C_NO_OID)
return GSS_S_CALL_INACCESSIBLE_READ;
if (data_set == NULL)
return GSS_S_CALL_INACCESSIBLE_WRITE;
*data_set = GSS_C_NO_BUFFER_SET;
ctx = (krb5_gss_ctx_id_rec *) context_handle;
if (!ctx->established)
return GSS_S_NO_CONTEXT;
for (i = 0; i < sizeof(krb5_gss_inquire_sec_context_by_oid_ops)/
sizeof(krb5_gss_inquire_sec_context_by_oid_ops[0]); i++) {
if (g_OID_prefix_equal(desired_object, &krb5_gss_inquire_sec_context_by_oid_ops[i].oid)) {
return (*krb5_gss_inquire_sec_context_by_oid_ops[i].func)(minor_status,
context_handle,
desired_object,
data_set);
}
}
*minor_status = EINVAL;
return GSS_S_UNAVAILABLE;
}
|
krb5_gss_inquire_sec_context_by_oid (OM_uint32 *minor_status,
const gss_ctx_id_t context_handle,
const gss_OID desired_object,
gss_buffer_set_t *data_set)
{
krb5_gss_ctx_id_rec *ctx;
size_t i;
if (minor_status == NULL)
return GSS_S_CALL_INACCESSIBLE_WRITE;
*minor_status = 0;
if (desired_object == GSS_C_NO_OID)
return GSS_S_CALL_INACCESSIBLE_READ;
if (data_set == NULL)
return GSS_S_CALL_INACCESSIBLE_WRITE;
*data_set = GSS_C_NO_BUFFER_SET;
ctx = (krb5_gss_ctx_id_rec *) context_handle;
if (ctx->terminated || !ctx->established)
return GSS_S_NO_CONTEXT;
for (i = 0; i < sizeof(krb5_gss_inquire_sec_context_by_oid_ops)/
sizeof(krb5_gss_inquire_sec_context_by_oid_ops[0]); i++) {
if (g_OID_prefix_equal(desired_object, &krb5_gss_inquire_sec_context_by_oid_ops[i].oid)) {
return (*krb5_gss_inquire_sec_context_by_oid_ops[i].func)(minor_status,
context_handle,
desired_object,
data_set);
}
}
*minor_status = EINVAL;
return GSS_S_UNAVAILABLE;
}
|
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