2 * Copyright (c) 1997-2005 Kungliga Tekniska Högskolan
3 * (Royal Institute of Technology, Stockholm, Sweden).
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
10 * 1. Redistributions of source code must retain the above copyright
11 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in the
15 * documentation and/or other materials provided with the distribution.
17 * 3. Neither the name of the Institute nor the names of its contributors
18 * may be used to endorse or promote products derived from this software
19 * without specific prior written permission.
21 * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
22 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24 * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
25 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
26 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
27 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
29 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
30 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
37 * a tuple describing on what to listen
46 /* the current ones */
48 static struct port_desc
*ports
;
49 static size_t num_ports
;
50 static pid_t bonjour_pid
= -1;
53 * add `family, port, protocol' to the list with duplicate suppresion.
57 add_port(krb5_context context
,
58 int family
, int port
, const char *protocol
)
63 if(strcmp(protocol
, "udp") == 0)
65 else if(strcmp(protocol
, "tcp") == 0)
69 for(i
= 0; i
< num_ports
; i
++){
70 if(ports
[i
].type
== type
71 && ports
[i
].port
== port
72 && ports
[i
].family
== family
)
75 ports
= realloc(ports
, (num_ports
+ 1) * sizeof(*ports
));
77 krb5_err (context
, 1, errno
, "realloc");
78 ports
[num_ports
].family
= family
;
79 ports
[num_ports
].type
= type
;
80 ports
[num_ports
].port
= port
;
85 * add a triple but with service -> port lookup
86 * (this prints warnings for stuff that does not exist)
90 add_port_service(krb5_context context
,
91 int family
, const char *service
, int port
,
94 port
= krb5_getportbyname (context
, service
, protocol
, port
);
95 add_port (context
, family
, port
, protocol
);
99 * add the port with service -> port lookup or string -> number
100 * (no warning is printed)
104 add_port_string (krb5_context context
,
105 int family
, const char *str
, const char *protocol
)
110 sp
= roken_getservbyname (str
, protocol
);
116 port
= htons(strtol(str
, &end
, 0));
120 add_port (context
, family
, port
, protocol
);
124 * add the standard collection of ports for `family'
128 add_standard_ports (krb5_context context
,
129 krb5_kdc_configuration
*config
,
132 add_port_service(context
, family
, "kerberos", 88, "udp");
133 add_port_service(context
, family
, "kerberos", 88, "tcp");
134 add_port_service(context
, family
, "kerberos-sec", 88, "udp");
135 add_port_service(context
, family
, "kerberos-sec", 88, "tcp");
137 add_port_service(context
, family
, "http", 80, "tcp");
138 if(config
->enable_kx509
) {
139 add_port_service(context
, family
, "kca_service", 9878, "udp");
140 add_port_service(context
, family
, "kca_service", 9878, "tcp");
146 * parse the set of space-delimited ports in `str' and add them.
147 * "+" => all the standard ones
148 * otherwise it's port|service[/protocol]
152 parse_ports(krb5_context context
,
153 krb5_kdc_configuration
*config
,
158 char *str_copy
= strdup (str
);
160 p
= strtok_r(str_copy
, " \t", &pos
);
162 if(strcmp(p
, "+") == 0) {
164 add_standard_ports(context
, config
, AF_INET6
);
166 add_standard_ports(context
, config
, AF_INET
);
168 char *q
= strchr(p
, '/');
172 add_port_string(context
, AF_INET6
, p
, q
);
174 add_port_string(context
, AF_INET
, p
, q
);
177 add_port_string(context
, AF_INET6
, p
, "udp");
178 add_port_string(context
, AF_INET6
, p
, "tcp");
180 add_port_string(context
, AF_INET
, p
, "udp");
181 add_port_string(context
, AF_INET
, p
, "tcp");
185 p
= strtok_r(NULL
, " \t", &pos
);
191 * every socket we listen on
202 struct sockaddr_storage __ss
;
205 char addr_string
[128];
209 init_descr(struct descr
*d
)
211 memset(d
, 0, sizeof(*d
));
212 d
->sa
= (struct sockaddr
*)&d
->__ss
;
213 d
->s
= rk_INVALID_SOCKET
;
217 * re-initialize all `n' ->sa in `d'.
221 reinit_descrs (struct descr
*d
, int n
)
225 for (i
= 0; i
< n
; ++i
)
226 d
[i
].sa
= (struct sockaddr
*)&d
[i
].__ss
;
230 * Create the socket (family, type, port) in `d'
234 init_socket(krb5_context context
,
235 krb5_kdc_configuration
*config
,
236 struct descr
*d
, krb5_address
*a
, int family
, int type
, int port
)
239 struct sockaddr_storage __ss
;
240 struct sockaddr
*sa
= (struct sockaddr
*)&__ss
;
241 krb5_socklen_t sa_size
= sizeof(__ss
);
245 ret
= krb5_addr2sockaddr (context
, a
, sa
, &sa_size
, port
);
247 krb5_warn(context
, ret
, "krb5_addr2sockaddr");
248 rk_closesocket(d
->s
);
249 d
->s
= rk_INVALID_SOCKET
;
253 if (sa
->sa_family
!= family
)
256 d
->s
= socket(family
, type
, 0);
257 if(rk_IS_BAD_SOCKET(d
->s
)){
258 krb5_warn(context
, errno
, "socket(%d, %d, 0)", family
, type
);
259 d
->s
= rk_INVALID_SOCKET
;
263 #if defined(HAVE_SETSOCKOPT) && defined(SOL_SOCKET) && defined(SO_REUSEADDR)
266 setsockopt(d
->s
, SOL_SOCKET
, SO_REUSEADDR
, (void *)&one
, sizeof(one
));
272 socket_set_nonblocking(d
->s
, 1);
274 if(rk_IS_SOCKET_ERROR(bind(d
->s
, sa
, sa_size
))){
278 krb5_print_address (a
, a_str
, sizeof(a_str
), &len
);
279 krb5_warn(context
, errno
, "bind %s/%d", a_str
, ntohs(port
));
280 rk_closesocket(d
->s
);
281 d
->s
= rk_INVALID_SOCKET
;
284 if(type
== SOCK_STREAM
&& rk_IS_SOCKET_ERROR(listen(d
->s
, SOMAXCONN
))){
288 krb5_print_address (a
, a_str
, sizeof(a_str
), &len
);
289 krb5_warn(context
, errno
, "listen %s/%d", a_str
, ntohs(port
));
290 rk_closesocket(d
->s
);
291 d
->s
= rk_INVALID_SOCKET
;
294 socket_set_keepalive(d
->s
, 1);
298 * Allocate descriptors for all the sockets that we should listen on
299 * and return the number of them.
303 init_sockets(krb5_context context
,
304 krb5_kdc_configuration
*config
,
311 krb5_addresses addresses
;
313 if (explicit_addresses
.len
) {
314 addresses
= explicit_addresses
;
316 ret
= krb5_get_all_server_addrs (context
, &addresses
);
318 krb5_err (context
, 1, ret
, "krb5_get_all_server_addrs");
320 parse_ports(context
, config
, port_str
);
321 d
= malloc(addresses
.len
* num_ports
* sizeof(*d
));
323 krb5_errx(context
, 1, "malloc(%lu) failed",
324 (unsigned long)num_ports
* sizeof(*d
));
326 for (i
= 0; i
< num_ports
; i
++){
327 for (j
= 0; j
< addresses
.len
; ++j
) {
328 init_socket(context
, config
, &d
[num
], &addresses
.val
[j
],
329 ports
[i
].family
, ports
[i
].type
, ports
[i
].port
);
330 if(d
[num
].s
!= rk_INVALID_SOCKET
){
334 krb5_print_address (&addresses
.val
[j
], a_str
,
335 sizeof(a_str
), &len
);
337 kdc_log(context
, config
, 3, "listening on %s port %u/%s",
339 ntohs(ports
[i
].port
),
340 (ports
[i
].type
== SOCK_STREAM
) ? "tcp" : "udp");
346 krb5_free_addresses (context
, &addresses
);
347 d
= realloc(d
, num
* sizeof(*d
));
348 if (d
== NULL
&& num
!= 0)
349 krb5_errx(context
, 1, "realloc(%lu) failed",
350 (unsigned long)num
* sizeof(*d
));
351 reinit_descrs (d
, num
);
361 descr_type(struct descr
*d
)
363 if (d
->type
== SOCK_DGRAM
)
365 else if (d
->type
== SOCK_STREAM
)
371 addr_to_string(krb5_context context
,
372 struct sockaddr
*addr
, size_t addr_len
, char *str
, size_t len
)
375 if(krb5_sockaddr2address(context
, addr
, &a
) == 0) {
376 if(krb5_print_address(&a
, str
, len
, &len
) == 0) {
377 krb5_free_address(context
, &a
);
380 krb5_free_address(context
, &a
);
382 snprintf(str
, len
, "<family=%d>", addr
->sa_family
);
390 send_reply(krb5_context context
,
391 krb5_kdc_configuration
*config
,
392 krb5_boolean prependlength
,
396 kdc_log(context
, config
, 4,
397 "sending %lu bytes to %s", (unsigned long)reply
->length
,
401 l
[0] = (reply
->length
>> 24) & 0xff;
402 l
[1] = (reply
->length
>> 16) & 0xff;
403 l
[2] = (reply
->length
>> 8) & 0xff;
404 l
[3] = reply
->length
& 0xff;
405 if(rk_IS_SOCKET_ERROR(sendto(d
->s
, l
, sizeof(l
), 0, d
->sa
, d
->sock_len
))) {
406 kdc_log (context
, config
,
407 1, "sendto(%s): %s", d
->addr_string
,
408 strerror(rk_SOCK_ERRNO
));
412 if(rk_IS_SOCKET_ERROR(sendto(d
->s
, reply
->data
, reply
->length
, 0, d
->sa
, d
->sock_len
))) {
413 kdc_log (context
, config
, 1, "sendto(%s): %s", d
->addr_string
,
414 strerror(rk_SOCK_ERRNO
));
420 * Handle the request in `buf, len' to socket `d'
424 do_request(krb5_context context
,
425 krb5_kdc_configuration
*config
,
426 void *buf
, size_t len
, krb5_boolean prependlength
,
431 int datagram_reply
= (d
->type
== SOCK_DGRAM
);
433 krb5_kdc_update_time(NULL
);
435 krb5_data_zero(&reply
);
436 ret
= krb5_kdc_process_request(context
, config
,
437 buf
, len
, &reply
, &prependlength
,
438 d
->addr_string
, d
->sa
,
441 krb5_kdc_save_request(context
, request_log
, buf
, len
, &reply
, d
->sa
);
443 send_reply(context
, config
, prependlength
, d
, &reply
);
444 krb5_data_free(&reply
);
447 kdc_log(context
, config
, 1,
448 "Failed processing %lu byte request from %s",
449 (unsigned long)len
, d
->addr_string
);
453 * Handle incoming data to the UDP socket in `d'
457 handle_udp(krb5_context context
,
458 krb5_kdc_configuration
*config
,
464 buf
= malloc(max_request_udp
);
466 kdc_log(context
, config
, 1, "Failed to allocate %lu bytes",
467 (unsigned long)max_request_udp
);
471 d
->sock_len
= sizeof(d
->__ss
);
472 n
= recvfrom(d
->s
, buf
, max_request_udp
, 0, d
->sa
, &d
->sock_len
);
473 if (rk_IS_SOCKET_ERROR(n
)) {
474 if (rk_SOCK_ERRNO
!= EAGAIN
&& rk_SOCK_ERRNO
!= EINTR
)
475 krb5_warn(context
, rk_SOCK_ERRNO
, "recvfrom");
477 addr_to_string (context
, d
->sa
, d
->sock_len
,
478 d
->addr_string
, sizeof(d
->addr_string
));
479 if ((size_t)n
== max_request_udp
) {
481 krb5_warn(context
, errno
,
482 "recvfrom: truncated packet from %s, asking for TCP",
484 krb5_mk_error(context
,
485 KRB5KRB_ERR_RESPONSE_TOO_BIG
,
493 send_reply(context
, config
, FALSE
, d
, &data
);
494 krb5_data_free(&data
);
496 do_request(context
, config
, buf
, n
, FALSE
, d
);
503 clear_descr(struct descr
*d
)
506 memset(d
->buf
, 0, d
->size
);
508 if(d
->s
!= rk_INVALID_SOCKET
)
509 rk_closesocket(d
->s
);
510 d
->s
= rk_INVALID_SOCKET
;
514 /* remove HTTP %-quoting from buf */
518 unsigned char *p
, *q
;
521 for (p
= q
= (unsigned char *)buf
; *p
; p
++, q
++) {
523 if (!(isxdigit(p
[1]) && isxdigit(p
[2])))
526 if (sscanf((char *)p
+ 1, "%2x", &x
) != 1)
539 #define TCP_TIMEOUT 4
542 * accept a new TCP connection on `d[parent]' and store it in `d[child]'
546 add_new_tcp (krb5_context context
,
547 krb5_kdc_configuration
*config
,
548 struct descr
*d
, int parent
, int child
)
555 d
[child
].sock_len
= sizeof(d
[child
].__ss
);
556 s
= accept(d
[parent
].s
, d
[child
].sa
, &d
[child
].sock_len
);
557 if(rk_IS_BAD_SOCKET(s
)) {
558 if (rk_SOCK_ERRNO
!= EAGAIN
&& rk_SOCK_ERRNO
!= EINTR
)
559 krb5_warn(context
, rk_SOCK_ERRNO
, "accept");
564 if (s
>= FD_SETSIZE
) {
565 krb5_warnx(context
, "socket FD too large");
572 d
[child
].timeout
= time(NULL
) + TCP_TIMEOUT
;
573 d
[child
].type
= SOCK_STREAM
;
574 addr_to_string (context
,
575 d
[child
].sa
, d
[child
].sock_len
,
576 d
[child
].addr_string
, sizeof(d
[child
].addr_string
));
580 * Grow `d' to handle at least `n'.
581 * Return != 0 if fails
585 grow_descr (krb5_context context
,
586 krb5_kdc_configuration
*config
,
587 struct descr
*d
, size_t n
)
589 if (d
->size
- d
->len
< n
) {
593 grow
= max(1024, d
->len
+ n
);
594 if (d
->size
+ grow
> max_request_tcp
) {
595 kdc_log(context
, config
, 2, "Request exceeds max request size (%lu bytes).",
596 (unsigned long)d
->size
+ grow
);
600 tmp
= realloc (d
->buf
, d
->size
+ grow
);
602 kdc_log(context
, config
, 1, "Failed to re-allocate %lu bytes.",
603 (unsigned long)d
->size
+ grow
);
614 * Try to handle the TCP data at `d->buf, d->len'.
615 * Return -1 if failed, 0 if succesful, and 1 if data is complete.
619 handle_vanilla_tcp (krb5_context context
,
620 krb5_kdc_configuration
*config
,
626 sp
= krb5_storage_from_mem(d
->buf
, d
->len
);
628 kdc_log (context
, config
, 1, "krb5_storage_from_mem failed");
631 krb5_ret_uint32(sp
, &len
);
632 krb5_storage_free(sp
);
633 if(d
->len
- 4 >= len
) {
634 memmove(d
->buf
, d
->buf
+ 4, d
->len
- 4);
642 * Try to handle the TCP/HTTP data at `d->buf, d->len'.
643 * Return -1 if failed, 0 if succesful, and 1 if data is complete.
647 handle_http_tcp (krb5_context context
,
648 krb5_kdc_configuration
*config
,
658 /* If its a multi line query, truncate off the first line */
659 p
= strstr(s
, "\r\n");
664 t
= strtok_r(s
, " \t", &p
);
666 kdc_log(context
, config
, 2,
667 "Missing HTTP operand (GET) request from %s", d
->addr_string
);
671 t
= strtok_r(NULL
, " \t", &p
);
673 kdc_log(context
, config
, 2,
674 "Missing HTTP GET data in request from %s", d
->addr_string
);
678 data
= malloc(strlen(t
));
680 kdc_log(context
, config
, 1, "Failed to allocate %lu bytes",
681 (unsigned long)strlen(t
));
686 if(de_http(t
) != 0) {
687 kdc_log(context
, config
, 2, "Malformed HTTP request from %s", d
->addr_string
);
688 kdc_log(context
, config
, 4, "HTTP request: %s", t
);
692 proto
= strtok_r(NULL
, " \t", &p
);
694 kdc_log(context
, config
, 2, "Malformed HTTP request from %s", d
->addr_string
);
698 len
= rk_base64_decode(t
, data
);
702 "Server: Heimdal/" VERSION
"\r\n"
703 "Cache-Control: no-cache\r\n"
704 "Pragma: no-cache\r\n"
705 "Content-type: text/html\r\n"
706 "Content-transfer-encoding: 8bit\r\n\r\n"
707 "<TITLE>404 Not found</TITLE>\r\n"
708 "<H1>404 Not found</H1>\r\n"
709 "That page doesn't exist, maybe you are looking for "
710 "<A HREF=\"http://www.h5l.org/\">Heimdal</A>?\r\n";
711 kdc_log(context
, config
, 2, "HTTP request from %s is non KDC request", d
->addr_string
);
712 kdc_log(context
, config
, 4, "HTTP request: %s", t
);
714 if (rk_IS_SOCKET_ERROR(send(d
->s
, proto
, strlen(proto
), 0))) {
715 kdc_log(context
, config
, 1, "HTTP write failed: %s: %s",
716 d
->addr_string
, strerror(rk_SOCK_ERRNO
));
719 if (rk_IS_SOCKET_ERROR(send(d
->s
, msg
, strlen(msg
), 0))) {
720 kdc_log(context
, config
, 1, "HTTP write failed: %s: %s",
721 d
->addr_string
, strerror(rk_SOCK_ERRNO
));
729 "Server: Heimdal/" VERSION
"\r\n"
730 "Cache-Control: no-cache\r\n"
731 "Pragma: no-cache\r\n"
732 "Content-type: application/octet-stream\r\n"
733 "Content-transfer-encoding: binary\r\n\r\n";
734 if (rk_IS_SOCKET_ERROR(send(d
->s
, proto
, strlen(proto
), 0))) {
736 kdc_log(context
, config
, 1, "HTTP write failed: %s: %s",
737 d
->addr_string
, strerror(rk_SOCK_ERRNO
));
740 if (rk_IS_SOCKET_ERROR(send(d
->s
, msg
, strlen(msg
), 0))) {
742 kdc_log(context
, config
, 1, "HTTP write failed: %s: %s",
743 d
->addr_string
, strerror(rk_SOCK_ERRNO
));
747 if ((size_t)len
> d
->len
)
749 memcpy(d
->buf
, data
, len
);
756 http1_request_taste(const unsigned char *req
, size_t len
)
758 return !!((len
>= sizeof("GET ") - 1 &&
759 memcmp(req
, "GET ", sizeof("GET ") - 1) == 0) ||
760 (len
>= sizeof("HEAD ") - 1 &&
761 memcmp(req
, "HEAD ", sizeof("HEAD ") - 1) == 0));
765 http1_request_is_complete(const unsigned char *req
, size_t len
)
768 return http1_request_taste(req
, len
) &&
769 memmem(req
, len
, "\r\n\r\n", sizeof("\r\n\r\n") - 4) != NULL
;
772 * For POST (the MSFT variant of this protocol) we'll need something like
773 * this (plus check for Content-Length/Transfer-Encoding):
775 * const unsigned char *body;
776 * if ((body = memmem(req, len, "\r\n\r\n", sizeof("\r\n\r\n") - 4)) == NULL)
778 * body += sizeof("\r\n\r\n") - 4;
779 * len -= (body - req);
780 * return memmem(body, len, "\r\n\r\n", sizeof("\r\n\r\n") - 4) != NULL;
782 * Since the POST-based variant runs over HTTPS, we'll probably implement
783 * that in a proxy instead of here.
788 * Handle incoming data to the TCP socket in `d[index]'
792 handle_tcp(krb5_context context
,
793 krb5_kdc_configuration
*config
,
794 struct descr
*d
, int idx
, int min_free
)
796 unsigned char buf
[1024];
800 if (d
[idx
].timeout
== 0) {
801 add_new_tcp (context
, config
, d
, idx
, min_free
);
805 n
= recvfrom(d
[idx
].s
, buf
, sizeof(buf
), 0, NULL
, NULL
);
806 if(rk_IS_SOCKET_ERROR(n
)){
807 krb5_warn(context
, rk_SOCK_ERRNO
, "recvfrom failed from %s to %s/%d",
808 d
[idx
].addr_string
, descr_type(d
+ idx
),
812 krb5_warnx(context
, "connection closed before end of data after %lu "
813 "bytes from %s to %s/%d", (unsigned long)d
[idx
].len
,
814 d
[idx
].addr_string
, descr_type(d
+ idx
),
816 clear_descr (d
+ idx
);
819 if (grow_descr (context
, config
, &d
[idx
], n
))
821 memcpy(d
[idx
].buf
+ d
[idx
].len
, buf
, n
);
823 if(d
[idx
].len
> 4 && d
[idx
].buf
[0] == 0) {
824 ret
= handle_vanilla_tcp (context
, config
, &d
[idx
]);
825 } else if (enable_http
&&
826 http1_request_taste(d
[idx
].buf
, d
[idx
].len
)) {
828 if (http1_request_is_complete(d
[idx
].buf
, d
[idx
].len
)) {
829 /* NUL-terminate at the request header ending \r\n\r\n */
830 d
[idx
].buf
[d
[idx
].len
- 4] = '\0';
831 ret
= handle_http_tcp (context
, config
, &d
[idx
]);
833 } else if (d
[idx
].len
> 4) {
834 kdc_log (context
, config
,
835 2, "TCP data of strange type from %s to %s/%d",
836 d
[idx
].addr_string
, descr_type(d
+ idx
),
838 if (d
[idx
].buf
[0] & 0x80) {
841 kdc_log (context
, config
, 2, "TCP extension not supported");
843 ret
= krb5_mk_error(context
,
844 KRB5KRB_ERR_FIELD_TOOLONG
,
853 send_reply(context
, config
, TRUE
, d
+ idx
, &reply
);
854 krb5_data_free(&reply
);
857 clear_descr(d
+ idx
);
862 * ret == 0 -> not enough of request buffered -> wait for more
863 * ret == 1 -> go ahead and perform the request
864 * ret != 0 (really, < 0) -> error, probably ENOMEM, close connection
867 do_request(context
, config
,
868 d
[idx
].buf
, d
[idx
].len
, TRUE
, &d
[idx
]);
871 * Note: this means we don't keep the connection open even where we
872 * the protocol permits it.
875 clear_descr(d
+ idx
);
880 handle_islive(int fd
)
885 ret
= read(fd
, &buf
, 1);
892 realloc_descrs(struct descr
**d
, unsigned int *ndescr
)
897 tmp
= realloc(*d
, (*ndescr
+ 4) * sizeof(**d
));
902 reinit_descrs (*d
, *ndescr
);
903 memset(*d
+ *ndescr
, 0, 4 * sizeof(**d
));
904 for(i
= *ndescr
; i
< *ndescr
+ 4; i
++)
913 next_min_free(krb5_context context
, struct descr
**d
, unsigned int *ndescr
)
918 for(i
= 0; i
< *ndescr
; i
++) {
920 if(rk_IS_BAD_SOCKET(s
))
925 if(!realloc_descrs(d
, ndescr
)) {
927 krb5_warnx(context
, "No memory");
934 loop(krb5_context context
, krb5_kdc_configuration
*config
,
935 struct descr
**dp
, unsigned int *ndescrp
, int islive
)
937 struct descr
*d
= *dp
;
938 unsigned int ndescr
= *ndescrp
;
940 while (exit_flag
== 0) {
941 struct timeval tmout
;
949 FD_SET(islive
, &fds
);
952 for (i
= 0; i
< ndescr
; i
++) {
953 if (!rk_IS_BAD_SOCKET(d
[i
].s
)) {
954 if (d
[i
].type
== SOCK_STREAM
&&
955 d
[i
].timeout
&& d
[i
].timeout
< time(NULL
)) {
956 kdc_log(context
, config
, 2,
957 "TCP-connection from %s expired after %lu bytes",
958 d
[i
].addr_string
, (unsigned long)d
[i
].len
);
962 #ifndef NO_LIMIT_FD_SETSIZE
966 if (max_fd
>= FD_SETSIZE
)
967 krb5_errx(context
, 1, "fd too large");
970 FD_SET(d
[i
].s
, &fds
);
974 tmout
.tv_sec
= TCP_TIMEOUT
;
976 switch(select(max_fd
+ 1, &fds
, 0, 0, &tmout
)){
981 krb5_warn(context
, rk_SOCK_ERRNO
, "select");
985 if (islive
> -1 && FD_ISSET(islive
, &fds
))
986 handle_islive(islive
);
988 for (i
= 0; i
< ndescr
; i
++)
989 if (!rk_IS_BAD_SOCKET(d
[i
].s
) && FD_ISSET(d
[i
].s
, &fds
)) {
990 min_free
= next_min_free(context
, dp
, ndescrp
);
994 if (d
[i
].type
== SOCK_DGRAM
)
995 handle_udp(context
, config
, &d
[i
]);
996 else if (d
[i
].type
== SOCK_STREAM
)
997 handle_tcp(context
, config
, d
, i
, min_free
);
1002 switch (exit_flag
) {
1004 kdc_log(context
, config
, 0,
1005 "KDC worker process exiting because KDC master exited.");
1009 kdc_log(context
, config
, 0, "CPU time limit exceeded");
1014 kdc_log(context
, config
, 0, "Terminated");
1017 kdc_log(context
, config
, 0, "Unexpected exit reason: %d", exit_flag
);
1024 bonjour_kid(krb5_context context
, krb5_kdc_configuration
*config
, const char *argv0
, int *islive
)
1028 if (do_bonjour
> 0) {
1029 bonjour_announce(context
, config
);
1031 while (read(0, &buf
, 1) == 1)
1036 if ((bonjour_pid
= fork()) != 0)
1040 if (dup2(islive
[1], 0) == -1)
1041 err(1, "failed to announce with bonjour (dup)");
1044 execlp(argv0
, "kdc", "--bonjour", NULL
);
1045 err(1, "failed to announce with bonjour (exec)");
1051 kill_kids(pid_t
*pids
, int max_kids
, int sig
)
1055 for (i
=0; i
< max_kids
; i
++)
1058 if (bonjour_pid
> 0)
1059 kill(sig
, bonjour_pid
);
1063 reap_kid(krb5_context context
, krb5_kdc_configuration
*config
,
1064 pid_t
*pids
, int max_kids
, int options
)
1069 int i
= 0; /* quiet warnings */
1072 const char *sev
= "info: ";
1074 pid
= waitpid(-1, &status
, options
);
1078 if (pid
== bonjour_pid
) {
1079 bonjour_pid
= (pid_t
)-1;
1082 for (i
=0; i
< max_kids
; i
++) {
1083 if (pids
[i
] == pid
) {
1084 pids
[i
] = (pid_t
)-1;
1091 if (i
== max_kids
) {
1092 /* should not happen */
1099 if (WIFEXITED(status
))
1100 kdc_log(context
, config
, level
,
1101 "%sKDC reaped %s process: %d, exit status: %d",
1102 sev
, what
, (int)pid
, WEXITSTATUS(status
));
1103 else if (WIFSIGNALED(status
))
1104 kdc_log(context
, config
, level
,
1105 "%sKDC reaped %s process: %d, term signal %d%s",
1106 sev
, what
, (int)pid
, WTERMSIG(status
),
1107 WCOREDUMP(status
) ? " (core dumped)" : "");
1109 kdc_log(context
, config
, level
, "%sKDC reaped %s process: %d",
1110 sev
, what
, (int)pid
);
1116 reap_kids(krb5_context context
, krb5_kdc_configuration
*config
,
1117 pid_t
*pids
, int max_kids
)
1122 if (reap_kid(context
, config
, pids
, max_kids
, WNOHANG
) == 0)
1131 select_sleep(int microseconds
)
1135 tv
.tv_sec
= microseconds
/ 1000000;
1136 tv
.tv_usec
= microseconds
% 1000000;
1137 select(0, NULL
, NULL
, NULL
, &tv
);
1142 start_kdc(krb5_context context
,
1143 krb5_kdc_configuration
*config
, const char *argv0
)
1148 unsigned int ndescr
;
1152 int max_kdcs
= config
->num_kdc_processes
;
1160 bonjour_kid(context
, config
, argv0
, NULL
);
1164 #ifdef _SC_NPROCESSORS_ONLN
1166 max_kdcs
= sysconf(_SC_NPROCESSORS_ONLN
);
1172 pids
= calloc(max_kdcs
, sizeof(*pids
));
1174 krb5_err(context
, 1, errno
, "malloc");
1177 * We open a socketpair of which we hand one end to each of our kids.
1178 * When we exit, for whatever reason, the children will notice an EOF
1179 * on their end and be able to cleanly exit.
1182 if (socketpair(PF_UNIX
, SOCK_STREAM
, 0, islive
) == -1)
1183 krb5_errx(context
, 1, "socketpair");
1184 socket_set_nonblocking(islive
[1], 1);
1187 ndescr
= init_sockets(context
, config
, &d
);
1189 krb5_errx(context
, 1, "No sockets!");
1195 bonjour_kid(context
, config
, argv0
, islive
);
1198 kdc_log(context
, config
, 3, "KDC started master process pid=%d", getpid());
1200 kdc_log(context
, config
, 3, "KDC started pid=%d", getpid());
1203 roken_detach_finish(NULL
, daemon_child
);
1206 if (!testing_flag
) {
1207 /* Note that we might never execute the body of this loop */
1208 while (exit_flag
== 0) {
1210 if (num_kdcs
>= max_kdcs
) {
1211 num_kdcs
-= reap_kid(context
, config
, pids
, max_kdcs
, 0);
1216 num_kdcs
-= reap_kids(context
, config
, pids
, max_kdcs
);
1222 loop(context
, config
, &d
, &ndescr
, islive
[1]);
1225 /* XXXrcd: hmmm, do something useful?? */
1226 kdc_log(context
, config
, 1,
1227 "KDC master process could not fork worker process");
1231 for (i
= 0; i
< max_kdcs
; i
++) {
1237 if (i
>= max_kdcs
) {
1238 /* This should not happen */
1239 kdc_log(context
, config
, 1,
1240 "warning: forked untracked child process: %d",
1243 kdc_log(context
, config
, 3, "KDC worker process started: %d",
1246 /* Slow down the creation of KDCs... */
1247 select_sleep(12500);
1252 /* Closing these sockets should cause the kids to die... */
1257 /* Close our listener sockets before terminating workers */
1258 for (i
= 0; i
< ndescr
; ++i
)
1261 gettimeofday(&tv1
, NULL
);
1264 /* Reap every 10ms, terminate stragglers once a second, give up after 10 */
1267 num_kdcs
-= reap_kids(context
, config
, pids
, max_kdcs
);
1268 if (num_kdcs
== 0 && bonjour_pid
<= 0)
1271 * Using select to sleep will fail with EINTR if we receive a
1272 * SIGCHLD. This is desirable.
1274 select_sleep(10000);
1275 gettimeofday(&tv3
, NULL
);
1276 if (tv3
.tv_sec
- tv1
.tv_sec
> 10 ||
1277 (tv3
.tv_sec
- tv1
.tv_sec
== 10 && tv3
.tv_usec
>= tv1
.tv_usec
))
1279 if (tv3
.tv_sec
- tv2
.tv_sec
> 1 ||
1280 (tv3
.tv_sec
- tv2
.tv_sec
== 1 && tv3
.tv_usec
>= tv2
.tv_usec
)) {
1281 kill_kids(pids
, max_kdcs
, SIGTERM
);
1286 /* Kill stragglers and reap every 200ms, give up after 15s */
1288 kill_kids(pids
, max_kdcs
, SIGKILL
);
1289 num_kdcs
-= reap_kids(context
, config
, pids
, max_kdcs
);
1290 if (num_kdcs
== 0 && bonjour_pid
<= 0)
1292 select_sleep(200000);
1293 gettimeofday(&tv2
, NULL
);
1294 if (tv2
.tv_sec
- tv1
.tv_sec
> 15 ||
1295 (tv2
.tv_sec
- tv1
.tv_sec
== 15 && tv2
.tv_usec
>= tv1
.tv_usec
))
1300 kdc_log(context
, config
, 3, "KDC master process exiting");
1302 loop(context
, config
, &d
, &ndescr
, -1);
1303 kdc_log(context
, config
, 3, "KDC exiting");
1307 loop(context
, config
, &d
, &ndescr
, -1);
1308 kdc_log(context
, config
, 3, "KDC exiting");