Annotation of embedaddon/dnsmasq/src/rfc2131.c, revision 1.1.1.5
1.1.1.5 ! misho 1: /* dnsmasq is Copyright (c) 2000-2022 Simon Kelley
1.1 misho 2:
3: This program is free software; you can redistribute it and/or modify
4: it under the terms of the GNU General Public License as published by
5: the Free Software Foundation; version 2 dated June, 1991, or
6: (at your option) version 3 dated 29 June, 2007.
7:
8: This program is distributed in the hope that it will be useful,
9: but WITHOUT ANY WARRANTY; without even the implied warranty of
10: MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11: GNU General Public License for more details.
12:
13: You should have received a copy of the GNU General Public License
14: along with this program. If not, see <http://www.gnu.org/licenses/>.
15: */
16:
17: #include "dnsmasq.h"
18:
19: #ifdef HAVE_DHCP
20:
21: #define option_len(opt) ((int)(((unsigned char *)(opt))[1]))
22: #define option_ptr(opt, i) ((void *)&(((unsigned char *)(opt))[2u+(unsigned int)(i)]))
23:
24: #ifdef HAVE_SCRIPT
25: static void add_extradata_opt(struct dhcp_lease *lease, unsigned char *opt);
26: #endif
27:
28: static int sanitise(unsigned char *opt, char *buf);
29: static struct in_addr server_id(struct dhcp_context *context, struct in_addr override, struct in_addr fallback);
30: static unsigned int calc_time(struct dhcp_context *context, struct dhcp_config *config, unsigned char *opt);
31: static void option_put(struct dhcp_packet *mess, unsigned char *end, int opt, int len, unsigned int val);
32: static void option_put_string(struct dhcp_packet *mess, unsigned char *end,
1.1.1.4 misho 33: int opt, const char *string, int null_term);
1.1 misho 34: static struct in_addr option_addr(unsigned char *opt);
1.1.1.4 misho 35: static unsigned int option_uint(unsigned char *opt, int offset, int size);
1.1 misho 36: static void log_packet(char *type, void *addr, unsigned char *ext_mac,
1.1.1.2 misho 37: int mac_len, char *interface, char *string, char *err, u32 xid);
1.1 misho 38: static unsigned char *option_find(struct dhcp_packet *mess, size_t size, int opt_type, int minsize);
39: static unsigned char *option_find1(unsigned char *p, unsigned char *end, int opt, int minsize);
40: static size_t dhcp_packet_size(struct dhcp_packet *mess, unsigned char *agent_id, unsigned char *real_end);
41: static void clear_packet(struct dhcp_packet *mess, unsigned char *end);
1.1.1.2 misho 42: static int in_list(unsigned char *list, int opt);
1.1 misho 43: static void do_options(struct dhcp_context *context,
44: struct dhcp_packet *mess,
1.1.1.4 misho 45: unsigned char *end,
1.1 misho 46: unsigned char *req_options,
47: char *hostname,
1.1.1.4 misho 48: char *domain,
1.1 misho 49: struct dhcp_netid *netid,
50: struct in_addr subnet_addr,
51: unsigned char fqdn_flags,
1.1.1.4 misho 52: int null_term, int pxe_arch,
1.1 misho 53: unsigned char *uuid,
54: int vendor_class_len,
1.1.1.3 misho 55: time_t now,
56: unsigned int lease_time,
1.1.1.4 misho 57: unsigned short fuzz,
58: const char *pxevendor);
1.1 misho 59:
60:
61: static void match_vendor_opts(unsigned char *opt, struct dhcp_opt *dopt);
1.1.1.4 misho 62: static int do_encap_opts(struct dhcp_opt *opt, int encap, int flag, struct dhcp_packet *mess, unsigned char *end, int null_term);
63: static void pxe_misc(struct dhcp_packet *mess, unsigned char *end, unsigned char *uuid, const char *pxevendor);
1.1 misho 64: static int prune_vendor_opts(struct dhcp_netid *netid);
65: static struct dhcp_opt *pxe_opts(int pxe_arch, struct dhcp_netid *netid, struct in_addr local, time_t now);
66: struct dhcp_boot *find_boot(struct dhcp_netid *netid);
1.1.1.3 misho 67: static int pxe_uefi_workaround(int pxe_arch, struct dhcp_netid *netid, struct dhcp_packet *mess, struct in_addr local, time_t now, int pxe);
1.1.1.4 misho 68: static void apply_delay(u32 xid, time_t recvtime, struct dhcp_netid *netid);
69: static int is_pxe_client(struct dhcp_packet *mess, size_t sz, const char **pxe_vendor);
70:
1.1 misho 71: size_t dhcp_reply(struct dhcp_context *context, char *iface_name, int int_index,
1.1.1.4 misho 72: size_t sz, time_t now, int unicast_dest, int loopback,
73: int *is_inform, int pxe, struct in_addr fallback, time_t recvtime)
1.1 misho 74: {
75: unsigned char *opt, *clid = NULL;
76: struct dhcp_lease *ltmp, *lease = NULL;
77: struct dhcp_vendor *vendor;
78: struct dhcp_mac *mac;
79: struct dhcp_netid_list *id_list;
1.1.1.4 misho 80: int clid_len = 0, ignore = 0, do_classes = 0, rapid_commit = 0, selecting = 0, pxearch = -1;
81: const char *pxevendor = NULL;
1.1 misho 82: struct dhcp_packet *mess = (struct dhcp_packet *)daemon->dhcp_packet.iov_base;
83: unsigned char *end = (unsigned char *)(mess + 1);
84: unsigned char *real_end = (unsigned char *)(mess + 1);
85: char *hostname = NULL, *offer_hostname = NULL, *client_hostname = NULL, *domain = NULL;
86: int hostname_auth = 0, borken_opt = 0;
87: unsigned char *req_options = NULL;
88: char *message = NULL;
89: unsigned int time;
90: struct dhcp_config *config;
91: struct dhcp_netid *netid, *tagif_netid;
92: struct in_addr subnet_addr, override;
93: unsigned short fuzz = 0;
94: unsigned int mess_type = 0;
95: unsigned char fqdn_flags = 0;
96: unsigned char *agent_id = NULL, *uuid = NULL;
97: unsigned char *emac = NULL;
98: int vendor_class_len = 0, emac_len = 0;
99: struct dhcp_netid known_id, iface_id, cpewan_id;
100: struct dhcp_opt *o;
101: unsigned char pxe_uuid[17];
1.1.1.2 misho 102: unsigned char *oui = NULL, *serial = NULL;
103: #ifdef HAVE_SCRIPT
104: unsigned char *class = NULL;
105: #endif
1.1 misho 106:
107: subnet_addr.s_addr = override.s_addr = 0;
108:
109: /* set tag with name == interface */
110: iface_id.net = iface_name;
111: iface_id.next = NULL;
112: netid = &iface_id;
113:
114: if (mess->op != BOOTREQUEST || mess->hlen > DHCP_CHADDR_MAX)
115: return 0;
116:
117: if (mess->htype == 0 && mess->hlen != 0)
118: return 0;
119:
120: /* check for DHCP rather than BOOTP */
121: if ((opt = option_find(mess, sz, OPTION_MESSAGE_TYPE, 1)))
122: {
123: u32 cookie = htonl(DHCP_COOKIE);
124:
125: /* only insist on a cookie for DHCP. */
126: if (memcmp(mess->options, &cookie, sizeof(u32)) != 0)
127: return 0;
128:
129: mess_type = option_uint(opt, 0, 1);
130:
131: /* two things to note here: expand_buf may move the packet,
132: so reassign mess from daemon->packet. Also, the size
133: sent includes the IP and UDP headers, hence the magic "-28" */
134: if ((opt = option_find(mess, sz, OPTION_MAXMESSAGE, 2)))
135: {
136: size_t size = (size_t)option_uint(opt, 0, 2) - 28;
137:
138: if (size > DHCP_PACKET_MAX)
139: size = DHCP_PACKET_MAX;
140: else if (size < sizeof(struct dhcp_packet))
141: size = sizeof(struct dhcp_packet);
142:
143: if (expand_buf(&daemon->dhcp_packet, size))
144: {
145: mess = (struct dhcp_packet *)daemon->dhcp_packet.iov_base;
146: real_end = end = ((unsigned char *)mess) + size;
147: }
148: }
149:
150: /* Some buggy clients set ciaddr when they shouldn't, so clear that here since
151: it can affect the context-determination code. */
152: if ((option_find(mess, sz, OPTION_REQUESTED_IP, INADDRSZ) || mess_type == DHCPDISCOVER))
153: mess->ciaddr.s_addr = 0;
154:
155: /* search for device identity from CPEWAN devices, we pass this through to the script */
156: if ((opt = option_find(mess, sz, OPTION_VENDOR_IDENT_OPT, 5)))
157: {
158: unsigned int elen, offset, len = option_len(opt);
159:
160: for (offset = 0; offset < (len - 5); offset += elen + 5)
161: {
162: elen = option_uint(opt, offset + 4 , 1);
1.1.1.4 misho 163: if (option_uint(opt, offset, 4) == BRDBAND_FORUM_IANA && offset + elen + 5 <= len)
1.1 misho 164: {
165: unsigned char *x = option_ptr(opt, offset + 5);
166: unsigned char *y = option_ptr(opt, offset + elen + 5);
167: oui = option_find1(x, y, 1, 1);
168: serial = option_find1(x, y, 2, 1);
1.1.1.2 misho 169: #ifdef HAVE_SCRIPT
170: class = option_find1(x, y, 3, 1);
171: #endif
1.1 misho 172: /* If TR069-id is present set the tag "cpewan-id" to facilitate echoing
173: the gateway id back. Note that the device class is optional */
174: if (oui && serial)
175: {
176: cpewan_id.net = "cpewan-id";
177: cpewan_id.next = netid;
178: netid = &cpewan_id;
179: }
180: break;
181: }
182: }
183: }
184:
185: if ((opt = option_find(mess, sz, OPTION_AGENT_ID, 1)))
186: {
187: /* Any agent-id needs to be copied back out, verbatim, as the last option
188: in the packet. Here, we shift it to the very end of the buffer, if it doesn't
189: get overwritten, then it will be shuffled back at the end of processing.
190: Note that the incoming options must not be overwritten here, so there has to
191: be enough free space at the end of the packet to copy the option. */
192: unsigned char *sopt;
193: unsigned int total = option_len(opt) + 2;
1.1.1.4 misho 194: unsigned char *last_opt = option_find1(&mess->options[0] + sizeof(u32), ((unsigned char *)mess) + sz,
195: OPTION_END, 0);
1.1 misho 196: if (last_opt && last_opt < end - total)
197: {
198: end -= total;
199: agent_id = end;
200: memcpy(agent_id, opt, total);
201: }
202:
203: /* look for RFC3527 Link selection sub-option */
204: if ((sopt = option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_SUBNET_SELECT, INADDRSZ)))
205: subnet_addr = option_addr(sopt);
206:
207: /* look for RFC5107 server-identifier-override */
208: if ((sopt = option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_SERVER_OR, INADDRSZ)))
209: override = option_addr(sopt);
210:
211: /* if a circuit-id or remote-is option is provided, exact-match to options. */
212: for (vendor = daemon->dhcp_vendors; vendor; vendor = vendor->next)
213: {
214: int search;
215:
216: if (vendor->match_type == MATCH_CIRCUIT)
217: search = SUBOPT_CIRCUIT_ID;
218: else if (vendor->match_type == MATCH_REMOTE)
219: search = SUBOPT_REMOTE_ID;
220: else if (vendor->match_type == MATCH_SUBSCRIBER)
221: search = SUBOPT_SUBSCR_ID;
222: else
223: continue;
224:
225: if ((sopt = option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), search, 1)) &&
226: vendor->len == option_len(sopt) &&
227: memcmp(option_ptr(sopt, 0), vendor->data, vendor->len) == 0)
228: {
229: vendor->netid.next = netid;
230: netid = &vendor->netid;
231: }
232: }
233: }
234:
235: /* Check for RFC3011 subnet selector - only if RFC3527 one not present */
236: if (subnet_addr.s_addr == 0 && (opt = option_find(mess, sz, OPTION_SUBNET_SELECT, INADDRSZ)))
237: subnet_addr = option_addr(opt);
238:
239: /* If there is no client identifier option, use the hardware address */
1.1.1.4 misho 240: if (!option_bool(OPT_IGNORE_CLID) && (opt = option_find(mess, sz, OPTION_CLIENT_ID, 1)))
1.1 misho 241: {
242: clid_len = option_len(opt);
243: clid = option_ptr(opt, 0);
244: }
245:
246: /* do we have a lease in store? */
247: lease = lease_find_by_client(mess->chaddr, mess->hlen, mess->htype, clid, clid_len);
248:
249: /* If this request is missing a clid, but we've seen one before,
250: use it again for option matching etc. */
251: if (lease && !clid && lease->clid)
252: {
253: clid_len = lease->clid_len;
254: clid = lease->clid;
255: }
256:
257: /* find mac to use for logging and hashing */
258: emac = extended_hwaddr(mess->htype, mess->hlen, mess->chaddr, clid_len, clid, &emac_len);
259: }
260:
261: for (mac = daemon->dhcp_macs; mac; mac = mac->next)
262: if (mac->hwaddr_len == mess->hlen &&
263: (mac->hwaddr_type == mess->htype || mac->hwaddr_type == 0) &&
264: memcmp_masked(mac->hwaddr, mess->chaddr, mess->hlen, mac->mask))
265: {
266: mac->netid.next = netid;
267: netid = &mac->netid;
268: }
269:
270: /* Determine network for this packet. Our caller will have already linked all the
271: contexts which match the addresses of the receiving interface but if the
272: machine has an address already, or came via a relay, or we have a subnet selector,
273: we search again. If we don't have have a giaddr or explicit subnet selector,
274: use the ciaddr. This is necessary because a machine which got a lease via a
275: relay won't use the relay to renew. If matching a ciaddr fails but we have a context
276: from the physical network, continue using that to allow correct DHCPNAK generation later. */
277: if (mess->giaddr.s_addr || subnet_addr.s_addr || mess->ciaddr.s_addr)
278: {
279: struct dhcp_context *context_tmp, *context_new = NULL;
1.1.1.4 misho 280: struct shared_network *share = NULL;
1.1 misho 281: struct in_addr addr;
1.1.1.4 misho 282: int force = 0, via_relay = 0;
1.1 misho 283:
284: if (subnet_addr.s_addr)
285: {
286: addr = subnet_addr;
287: force = 1;
288: }
289: else if (mess->giaddr.s_addr)
290: {
291: addr = mess->giaddr;
292: force = 1;
1.1.1.4 misho 293: via_relay = 1;
1.1 misho 294: }
295: else
296: {
297: /* If ciaddr is in the hardware derived set of contexts, leave that unchanged */
298: addr = mess->ciaddr;
299: for (context_tmp = context; context_tmp; context_tmp = context_tmp->current)
300: if (context_tmp->netmask.s_addr &&
301: is_same_net(addr, context_tmp->start, context_tmp->netmask) &&
302: is_same_net(addr, context_tmp->end, context_tmp->netmask))
303: {
304: context_new = context;
305: break;
306: }
307: }
308:
309: if (!context_new)
1.1.1.4 misho 310: {
311: for (context_tmp = daemon->dhcp; context_tmp; context_tmp = context_tmp->next)
312: {
313: struct in_addr netmask = context_tmp->netmask;
314:
315: /* guess the netmask for relayed networks */
316: if (!(context_tmp->flags & CONTEXT_NETMASK) && context_tmp->netmask.s_addr == 0)
317: {
318: if (IN_CLASSA(ntohl(context_tmp->start.s_addr)) && IN_CLASSA(ntohl(context_tmp->end.s_addr)))
319: netmask.s_addr = htonl(0xff000000);
320: else if (IN_CLASSB(ntohl(context_tmp->start.s_addr)) && IN_CLASSB(ntohl(context_tmp->end.s_addr)))
321: netmask.s_addr = htonl(0xffff0000);
322: else if (IN_CLASSC(ntohl(context_tmp->start.s_addr)) && IN_CLASSC(ntohl(context_tmp->end.s_addr)))
323: netmask.s_addr = htonl(0xffffff00);
324: }
1.1 misho 325:
1.1.1.4 misho 326: /* check to see is a context is OK because of a shared address on
327: the relayed subnet. */
328: if (via_relay)
329: for (share = daemon->shared_networks; share; share = share->next)
330: {
331: #ifdef HAVE_DHCP6
332: if (share->shared_addr.s_addr == 0)
333: continue;
334: #endif
335: if (share->if_index != 0 ||
336: share->match_addr.s_addr != mess->giaddr.s_addr)
337: continue;
338:
339: if (netmask.s_addr != 0 &&
340: is_same_net(share->shared_addr, context_tmp->start, netmask) &&
341: is_same_net(share->shared_addr, context_tmp->end, netmask))
342: break;
343: }
344:
345: /* This section fills in context mainly when a client which is on a remote (relayed)
346: network renews a lease without using the relay, after dnsmasq has restarted. */
347: if (share ||
348: (netmask.s_addr != 0 &&
349: is_same_net(addr, context_tmp->start, netmask) &&
350: is_same_net(addr, context_tmp->end, netmask)))
351: {
352: context_tmp->netmask = netmask;
353: if (context_tmp->local.s_addr == 0)
354: context_tmp->local = fallback;
355: if (context_tmp->router.s_addr == 0 && !share)
356: context_tmp->router = mess->giaddr;
357:
358: /* fill in missing broadcast addresses for relayed ranges */
359: if (!(context_tmp->flags & CONTEXT_BRDCAST) && context_tmp->broadcast.s_addr == 0 )
360: context_tmp->broadcast.s_addr = context_tmp->start.s_addr | ~context_tmp->netmask.s_addr;
361:
362: context_tmp->current = context_new;
363: context_new = context_tmp;
364: }
365:
366: }
367: }
368:
1.1 misho 369: if (context_new || force)
370: context = context_new;
371: }
372:
373: if (!context)
374: {
1.1.1.5 ! misho 375: const char *via;
! 376: if (subnet_addr.s_addr)
! 377: {
! 378: via = _("with subnet selector");
! 379: inet_ntop(AF_INET, &subnet_addr, daemon->addrbuff, ADDRSTRLEN);
! 380: }
! 381: else
! 382: {
! 383: via = _("via");
! 384: if (mess->giaddr.s_addr)
! 385: inet_ntop(AF_INET, &mess->giaddr, daemon->addrbuff, ADDRSTRLEN);
! 386: else
! 387: safe_strncpy(daemon->addrbuff, iface_name, ADDRSTRLEN);
! 388: }
! 389: my_syslog(MS_DHCP | LOG_WARNING, _("no address range available for DHCP request %s %s"),
! 390: via, daemon->addrbuff);
1.1 misho 391: return 0;
392: }
393:
394: if (option_bool(OPT_LOG_OPTS))
395: {
396: struct dhcp_context *context_tmp;
397: for (context_tmp = context; context_tmp; context_tmp = context_tmp->current)
398: {
1.1.1.5 ! misho 399: inet_ntop(AF_INET, &context_tmp->start, daemon->namebuff, MAXDNAME);
1.1 misho 400: if (context_tmp->flags & (CONTEXT_STATIC | CONTEXT_PROXY))
1.1.1.5 ! misho 401: {
! 402: inet_ntop(AF_INET, &context_tmp->netmask, daemon->addrbuff, ADDRSTRLEN);
! 403: my_syslog(MS_DHCP | LOG_INFO, _("%u available DHCP subnet: %s/%s"),
! 404: ntohl(mess->xid), daemon->namebuff, daemon->addrbuff);
! 405: }
1.1 misho 406: else
1.1.1.5 ! misho 407: {
! 408: inet_ntop(AF_INET, &context_tmp->end, daemon->addrbuff, ADDRSTRLEN);
! 409: my_syslog(MS_DHCP | LOG_INFO, _("%u available DHCP range: %s -- %s"),
! 410: ntohl(mess->xid), daemon->namebuff, daemon->addrbuff);
! 411: }
1.1 misho 412: }
413: }
1.1.1.2 misho 414:
415: /* dhcp-match. If we have hex-and-wildcards, look for a left-anchored match.
416: Otherwise assume the option is an array, and look for a matching element.
1.1.1.4 misho 417: If no data given, existence of the option is enough. This code handles
1.1.1.2 misho 418: rfc3925 V-I classes too. */
419: for (o = daemon->dhcp_match; o; o = o->next)
420: {
421: unsigned int len, elen, match = 0;
422: size_t offset, o2;
423:
424: if (o->flags & DHOPT_RFC3925)
425: {
426: if (!(opt = option_find(mess, sz, OPTION_VENDOR_IDENT, 5)))
427: continue;
428:
429: for (offset = 0; offset < (option_len(opt) - 5u); offset += len + 5)
430: {
431: len = option_uint(opt, offset + 4 , 1);
432: /* Need to take care that bad data can't run us off the end of the packet */
1.1.1.4 misho 433: if ((offset + len + 5 <= (unsigned)(option_len(opt))) &&
1.1.1.2 misho 434: (option_uint(opt, offset, 4) == (unsigned int)o->u.encap))
435: for (o2 = offset + 5; o2 < offset + len + 5; o2 += elen + 1)
436: {
437: elen = option_uint(opt, o2, 1);
1.1.1.4 misho 438: if ((o2 + elen + 1 <= (unsigned)option_len(opt)) &&
1.1.1.2 misho 439: (match = match_bytes(o, option_ptr(opt, o2 + 1), elen)))
440: break;
441: }
442: if (match)
443: break;
444: }
445: }
446: else
447: {
448: if (!(opt = option_find(mess, sz, o->opt, 1)))
449: continue;
450:
451: match = match_bytes(o, option_ptr(opt, 0), option_len(opt));
452: }
453:
454: if (match)
455: {
456: o->netid->next = netid;
457: netid = o->netid;
458: }
459: }
460:
461: /* user-class options are, according to RFC3004, supposed to contain
462: a set of counted strings. Here we check that this is so (by seeing
463: if the counts are consistent with the overall option length) and if
464: so zero the counts so that we don't get spurious matches between
465: the vendor string and the counts. If the lengths don't add up, we
466: assume that the option is a single string and non RFC3004 compliant
467: and just do the substring match. dhclient provides these broken options.
468: The code, later, which sends user-class data to the lease-change script
469: relies on the transformation done here.
470: */
471:
472: if ((opt = option_find(mess, sz, OPTION_USER_CLASS, 1)))
473: {
474: unsigned char *ucp = option_ptr(opt, 0);
475: int tmp, j;
476: for (j = 0; j < option_len(opt); j += ucp[j] + 1);
477: if (j == option_len(opt))
478: for (j = 0; j < option_len(opt); j = tmp)
479: {
480: tmp = j + ucp[j] + 1;
481: ucp[j] = 0;
482: }
483: }
484:
485: for (vendor = daemon->dhcp_vendors; vendor; vendor = vendor->next)
486: {
487: int mopt;
488:
489: if (vendor->match_type == MATCH_VENDOR)
490: mopt = OPTION_VENDOR_ID;
491: else if (vendor->match_type == MATCH_USER)
492: mopt = OPTION_USER_CLASS;
493: else
494: continue;
495:
496: if ((opt = option_find(mess, sz, mopt, 1)))
497: {
498: int i;
499: for (i = 0; i <= (option_len(opt) - vendor->len); i++)
500: if (memcmp(vendor->data, option_ptr(opt, i), vendor->len) == 0)
501: {
502: vendor->netid.next = netid;
503: netid = &vendor->netid;
504: break;
505: }
506: }
507: }
508:
509: /* mark vendor-encapsulated options which match the client-supplied vendor class,
510: save client-supplied vendor class */
511: if ((opt = option_find(mess, sz, OPTION_VENDOR_ID, 1)))
512: {
513: memcpy(daemon->dhcp_buff3, option_ptr(opt, 0), option_len(opt));
514: vendor_class_len = option_len(opt);
515: }
516: match_vendor_opts(opt, daemon->dhcp_opts);
517:
518: if (option_bool(OPT_LOG_OPTS))
519: {
520: if (sanitise(opt, daemon->namebuff))
521: my_syslog(MS_DHCP | LOG_INFO, _("%u vendor class: %s"), ntohl(mess->xid), daemon->namebuff);
522: if (sanitise(option_find(mess, sz, OPTION_USER_CLASS, 1), daemon->namebuff))
523: my_syslog(MS_DHCP | LOG_INFO, _("%u user class: %s"), ntohl(mess->xid), daemon->namebuff);
524: }
1.1 misho 525:
526: mess->op = BOOTREPLY;
527:
528: config = find_config(daemon->dhcp_conf, context, clid, clid_len,
1.1.1.4 misho 529: mess->chaddr, mess->hlen, mess->htype, NULL, run_tag_if(netid));
1.1 misho 530:
531: /* set "known" tag for known hosts */
532: if (config)
533: {
534: known_id.net = "known";
535: known_id.next = netid;
536: netid = &known_id;
537: }
1.1.1.4 misho 538: else if (find_config(daemon->dhcp_conf, NULL, clid, clid_len,
539: mess->chaddr, mess->hlen, mess->htype, NULL, run_tag_if(netid)))
540: {
541: known_id.net = "known-othernet";
542: known_id.next = netid;
543: netid = &known_id;
544: }
1.1 misho 545:
546: if (mess_type == 0 && !pxe)
547: {
548: /* BOOTP request */
549: struct dhcp_netid id, bootp_id;
550: struct in_addr *logaddr = NULL;
551:
552: /* must have a MAC addr for bootp */
553: if (mess->htype == 0 || mess->hlen == 0 || (context->flags & CONTEXT_PROXY))
554: return 0;
555:
556: if (have_config(config, CONFIG_DISABLE))
557: message = _("disabled");
558:
559: end = mess->options + 64; /* BOOTP vend area is only 64 bytes */
560:
561: if (have_config(config, CONFIG_NAME))
562: {
563: hostname = config->hostname;
564: domain = config->domain;
565: }
566:
567: if (config)
568: {
569: struct dhcp_netid_list *list;
570:
571: for (list = config->netid; list; list = list->next)
572: {
573: list->list->next = netid;
574: netid = list->list;
575: }
576: }
577:
578: /* Match incoming filename field as a netid. */
579: if (mess->file[0])
580: {
581: memcpy(daemon->dhcp_buff2, mess->file, sizeof(mess->file));
582: daemon->dhcp_buff2[sizeof(mess->file) + 1] = 0; /* ensure zero term. */
583: id.net = (char *)daemon->dhcp_buff2;
584: id.next = netid;
585: netid = &id;
586: }
587:
588: /* Add "bootp" as a tag to allow different options, address ranges etc
589: for BOOTP clients */
590: bootp_id.net = "bootp";
591: bootp_id.next = netid;
592: netid = &bootp_id;
593:
594: tagif_netid = run_tag_if(netid);
595:
596: for (id_list = daemon->dhcp_ignore; id_list; id_list = id_list->next)
597: if (match_netid(id_list->list, tagif_netid, 0))
598: message = _("ignored");
599:
600: if (!message)
601: {
602: int nailed = 0;
603:
604: if (have_config(config, CONFIG_ADDR))
605: {
606: nailed = 1;
607: logaddr = &config->addr;
608: mess->yiaddr = config->addr;
609: if ((lease = lease_find_by_addr(config->addr)) &&
610: (lease->hwaddr_len != mess->hlen ||
611: lease->hwaddr_type != mess->htype ||
612: memcmp(lease->hwaddr, mess->chaddr, lease->hwaddr_len) != 0))
613: message = _("address in use");
614: }
615: else
616: {
617: if (!(lease = lease_find_by_client(mess->chaddr, mess->hlen, mess->htype, NULL, 0)) ||
618: !address_available(context, lease->addr, tagif_netid))
619: {
620: if (lease)
621: {
622: /* lease exists, wrong network. */
623: lease_prune(lease, now);
624: lease = NULL;
625: }
1.1.1.4 misho 626: if (!address_allocate(context, &mess->yiaddr, mess->chaddr, mess->hlen, tagif_netid, now, loopback))
1.1 misho 627: message = _("no address available");
628: }
629: else
630: mess->yiaddr = lease->addr;
631: }
632:
633: if (!message && !(context = narrow_context(context, mess->yiaddr, netid)))
634: message = _("wrong network");
635: else if (context->netid.net)
636: {
637: context->netid.next = netid;
638: tagif_netid = run_tag_if(&context->netid);
639: }
640:
641: log_tags(tagif_netid, ntohl(mess->xid));
642:
643: if (!message && !nailed)
644: {
645: for (id_list = daemon->bootp_dynamic; id_list; id_list = id_list->next)
646: if ((!id_list->list) || match_netid(id_list->list, tagif_netid, 0))
647: break;
648: if (!id_list)
649: message = _("no address configured");
650: }
651:
652: if (!message &&
653: !lease &&
654: (!(lease = lease4_allocate(mess->yiaddr))))
655: message = _("no leases left");
656:
657: if (!message)
658: {
659: logaddr = &mess->yiaddr;
660:
661: lease_set_hwaddr(lease, mess->chaddr, NULL, mess->hlen, mess->htype, 0, now, 1);
662: if (hostname)
663: lease_set_hostname(lease, hostname, 1, get_domain(lease->addr), domain);
664: /* infinite lease unless nailed in dhcp-host line. */
665: lease_set_expires(lease,
666: have_config(config, CONFIG_TIME) ? config->lease_time : 0xffffffff,
667: now);
668: lease_set_interface(lease, int_index, now);
669:
670: clear_packet(mess, end);
671: do_options(context, mess, end, NULL, hostname, get_domain(mess->yiaddr),
1.1.1.4 misho 672: netid, subnet_addr, 0, 0, -1, NULL, vendor_class_len, now, 0xffffffff, 0, NULL);
1.1 misho 673: }
674: }
675:
1.1.1.4 misho 676: daemon->metrics[METRIC_BOOTP]++;
1.1.1.2 misho 677: log_packet("BOOTP", logaddr, mess->chaddr, mess->hlen, iface_name, NULL, message, mess->xid);
1.1 misho 678:
679: return message ? 0 : dhcp_packet_size(mess, agent_id, real_end);
680: }
681:
1.1.1.2 misho 682: if ((opt = option_find(mess, sz, OPTION_CLIENT_FQDN, 3)))
1.1 misho 683: {
684: /* http://tools.ietf.org/wg/dhc/draft-ietf-dhc-fqdn-option/draft-ietf-dhc-fqdn-option-10.txt */
685: int len = option_len(opt);
686: char *pq = daemon->dhcp_buff;
687: unsigned char *pp, *op = option_ptr(opt, 0);
688:
689: fqdn_flags = *op;
690: len -= 3;
691: op += 3;
692: pp = op;
693:
694: /* NB, the following always sets at least one bit */
695: if (option_bool(OPT_FQDN_UPDATE))
696: {
697: if (fqdn_flags & 0x01)
698: {
699: fqdn_flags |= 0x02; /* set O */
700: fqdn_flags &= ~0x01; /* clear S */
701: }
702: fqdn_flags |= 0x08; /* set N */
703: }
704: else
705: {
706: if (!(fqdn_flags & 0x01))
707: fqdn_flags |= 0x03; /* set S and O */
708: fqdn_flags &= ~0x08; /* clear N */
709: }
710:
711: if (fqdn_flags & 0x04)
1.1.1.2 misho 712: while (*op != 0 && ((op + (*op)) - pp) < len)
1.1 misho 713: {
714: memcpy(pq, op+1, *op);
715: pq += *op;
716: op += (*op)+1;
717: *(pq++) = '.';
718: }
719: else
720: {
721: memcpy(pq, op, len);
722: if (len > 0 && op[len-1] == 0)
723: borken_opt = 1;
724: pq += len + 1;
725: }
726:
727: if (pq != daemon->dhcp_buff)
728: pq--;
729:
730: *pq = 0;
731:
732: if (legal_hostname(daemon->dhcp_buff))
733: offer_hostname = client_hostname = daemon->dhcp_buff;
734: }
735: else if ((opt = option_find(mess, sz, OPTION_HOSTNAME, 1)))
736: {
737: int len = option_len(opt);
738: memcpy(daemon->dhcp_buff, option_ptr(opt, 0), len);
739: /* Microsoft clients are broken, and need zero-terminated strings
740: in options. We detect this state here, and do the same in
741: any options we send */
742: if (len > 0 && daemon->dhcp_buff[len-1] == 0)
743: borken_opt = 1;
744: else
745: daemon->dhcp_buff[len] = 0;
746: if (legal_hostname(daemon->dhcp_buff))
747: client_hostname = daemon->dhcp_buff;
748: }
749:
1.1.1.4 misho 750: if (client_hostname)
751: {
752: struct dhcp_match_name *m;
753: size_t nl = strlen(client_hostname);
754:
755: if (option_bool(OPT_LOG_OPTS))
756: my_syslog(MS_DHCP | LOG_INFO, _("%u client provides name: %s"), ntohl(mess->xid), client_hostname);
757: for (m = daemon->dhcp_name_match; m; m = m->next)
758: {
759: size_t ml = strlen(m->name);
760: char save = 0;
761:
762: if (nl < ml)
763: continue;
764: if (nl > ml)
765: {
766: save = client_hostname[ml];
767: client_hostname[ml] = 0;
768: }
769:
770: if (hostname_isequal(client_hostname, m->name) &&
771: (save == 0 || m->wildcard))
772: {
773: m->netid->next = netid;
774: netid = m->netid;
775: }
776:
777: if (save != 0)
778: client_hostname[ml] = save;
779: }
780: }
1.1 misho 781:
782: if (have_config(config, CONFIG_NAME))
783: {
784: hostname = config->hostname;
785: domain = config->domain;
786: hostname_auth = 1;
787: /* be careful not to send an OFFER with a hostname not matching the DISCOVER. */
788: if (fqdn_flags != 0 || !client_hostname || hostname_isequal(hostname, client_hostname))
789: offer_hostname = hostname;
790: }
791: else if (client_hostname)
792: {
793: domain = strip_hostname(client_hostname);
794:
795: if (strlen(client_hostname) != 0)
796: {
797: hostname = client_hostname;
1.1.1.4 misho 798:
1.1 misho 799: if (!config)
800: {
801: /* Search again now we have a hostname.
802: Only accept configs without CLID and HWADDR here, (they won't match)
803: to avoid impersonation by name. */
804: struct dhcp_config *new = find_config(daemon->dhcp_conf, context, NULL, 0,
805: mess->chaddr, mess->hlen,
1.1.1.4 misho 806: mess->htype, hostname, run_tag_if(netid));
1.1 misho 807: if (new && !have_config(new, CONFIG_CLID) && !new->hwaddr)
808: {
809: config = new;
810: /* set "known" tag for known hosts */
811: known_id.net = "known";
812: known_id.next = netid;
813: netid = &known_id;
814: }
815: }
816: }
817: }
818:
819: if (config)
820: {
821: struct dhcp_netid_list *list;
822:
823: for (list = config->netid; list; list = list->next)
824: {
825: list->list->next = netid;
826: netid = list->list;
827: }
828: }
829:
830: tagif_netid = run_tag_if(netid);
1.1.1.2 misho 831:
1.1 misho 832: /* if all the netids in the ignore list are present, ignore this client */
833: for (id_list = daemon->dhcp_ignore; id_list; id_list = id_list->next)
834: if (match_netid(id_list->list, tagif_netid, 0))
835: ignore = 1;
836:
837: /* If configured, we can override the server-id to be the address of the relay,
838: so that all traffic goes via the relay and can pick up agent-id info. This can be
839: configured for all relays, or by address. */
840: if (daemon->override && mess->giaddr.s_addr != 0 && override.s_addr == 0)
841: {
842: if (!daemon->override_relays)
843: override = mess->giaddr;
844: else
845: {
846: struct addr_list *l;
847: for (l = daemon->override_relays; l; l = l->next)
848: if (l->addr.s_addr == mess->giaddr.s_addr)
849: break;
850: if (l)
851: override = mess->giaddr;
852: }
853: }
854:
855: /* Can have setting to ignore the client ID for a particular MAC address or hostname */
856: if (have_config(config, CONFIG_NOCLID))
857: clid = NULL;
858:
859: /* Check if client is PXE client. */
1.1.1.4 misho 860: if (daemon->enable_pxe &&
861: is_pxe_client(mess, sz, &pxevendor))
1.1 misho 862: {
863: if ((opt = option_find(mess, sz, OPTION_PXE_UUID, 17)))
864: {
865: memcpy(pxe_uuid, option_ptr(opt, 0), 17);
866: uuid = pxe_uuid;
867: }
868:
869: /* Check if this is really a PXE bootserver request, and handle specially if so. */
870: if ((mess_type == DHCPREQUEST || mess_type == DHCPINFORM) &&
871: (opt = option_find(mess, sz, OPTION_VENDOR_CLASS_OPT, 1)) &&
872: (opt = option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_PXE_BOOT_ITEM, 4)))
873: {
874: struct pxe_service *service;
875: int type = option_uint(opt, 0, 2);
876: int layer = option_uint(opt, 2, 2);
877: unsigned char save71[4];
878: struct dhcp_opt opt71;
879:
880: if (ignore)
881: return 0;
882:
883: if (layer & 0x8000)
884: {
885: my_syslog(MS_DHCP | LOG_ERR, _("PXE BIS not supported"));
886: return 0;
887: }
888:
889: memcpy(save71, option_ptr(opt, 0), 4);
890:
891: for (service = daemon->pxe_services; service; service = service->next)
892: if (service->type == type)
893: break;
894:
1.1.1.3 misho 895: for (; context; context = context->current)
896: if (match_netid(context->filter, tagif_netid, 1) &&
897: is_same_net(mess->ciaddr, context->start, context->netmask))
898: break;
1.1 misho 899:
1.1.1.3 misho 900: if (!service || !service->basename || !context)
901: return 0;
902:
1.1 misho 903: clear_packet(mess, end);
904:
905: mess->yiaddr = mess->ciaddr;
906: mess->ciaddr.s_addr = 0;
907: if (service->sname)
908: mess->siaddr = a_record_from_hosts(service->sname, now);
909: else if (service->server.s_addr != 0)
910: mess->siaddr = service->server;
911: else
912: mess->siaddr = context->local;
913:
1.1.1.4 misho 914: if (strchr(service->basename, '.'))
915: snprintf((char *)mess->file, sizeof(mess->file),
916: "%s", service->basename);
917: else
918: snprintf((char *)mess->file, sizeof(mess->file),
919: "%s.%d", service->basename, layer);
1.1.1.3 misho 920:
1.1 misho 921: option_put(mess, end, OPTION_MESSAGE_TYPE, 1, DHCPACK);
922: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, htonl(context->local.s_addr));
1.1.1.4 misho 923: pxe_misc(mess, end, uuid, pxevendor);
1.1 misho 924:
925: prune_vendor_opts(tagif_netid);
926: opt71.val = save71;
927: opt71.opt = SUBOPT_PXE_BOOT_ITEM;
928: opt71.len = 4;
929: opt71.flags = DHOPT_VENDOR_MATCH;
930: opt71.netid = NULL;
931: opt71.next = daemon->dhcp_opts;
932: do_encap_opts(&opt71, OPTION_VENDOR_CLASS_OPT, DHOPT_VENDOR_MATCH, mess, end, 0);
933:
1.1.1.2 misho 934: log_packet("PXE", &mess->yiaddr, emac, emac_len, iface_name, (char *)mess->file, NULL, mess->xid);
1.1 misho 935: log_tags(tagif_netid, ntohl(mess->xid));
936: return dhcp_packet_size(mess, agent_id, real_end);
937: }
938:
939: if ((opt = option_find(mess, sz, OPTION_ARCH, 2)))
940: {
941: pxearch = option_uint(opt, 0, 2);
942:
943: /* proxy DHCP here. */
944: if ((mess_type == DHCPDISCOVER || (pxe && mess_type == DHCPREQUEST)))
945: {
946: struct dhcp_context *tmp;
1.1.1.3 misho 947: int workaround = 0;
1.1 misho 948:
949: for (tmp = context; tmp; tmp = tmp->current)
950: if ((tmp->flags & CONTEXT_PROXY) &&
951: match_netid(tmp->filter, tagif_netid, 1))
952: break;
953:
954: if (tmp)
955: {
1.1.1.2 misho 956: struct dhcp_boot *boot;
1.1.1.3 misho 957: int redirect4011 = 0;
958:
1.1.1.2 misho 959: if (tmp->netid.net)
960: {
961: tmp->netid.next = netid;
962: tagif_netid = run_tag_if(&tmp->netid);
963: }
964:
965: boot = find_boot(tagif_netid);
966:
1.1 misho 967: mess->yiaddr.s_addr = 0;
968: if (mess_type == DHCPDISCOVER || mess->ciaddr.s_addr == 0)
969: {
970: mess->ciaddr.s_addr = 0;
971: mess->flags |= htons(0x8000); /* broadcast */
972: }
973:
974: clear_packet(mess, end);
975:
1.1.1.3 misho 976: /* Redirect EFI clients to port 4011 */
977: if (pxearch >= 6)
978: {
979: redirect4011 = 1;
980: mess->siaddr = tmp->local;
981: }
982:
983: /* Returns true if only one matching service is available. On port 4011,
984: it also inserts the boot file and server name. */
985: workaround = pxe_uefi_workaround(pxearch, tagif_netid, mess, tmp->local, now, pxe);
986:
987: if (!workaround && boot)
1.1 misho 988: {
1.1.1.4 misho 989: /* Provide the bootfile here, for iPXE, and in case we have no menu items
1.1.1.3 misho 990: and set discovery_control = 8 */
1.1 misho 991: if (boot->next_server.s_addr)
992: mess->siaddr = boot->next_server;
993: else if (boot->tftp_sname)
994: mess->siaddr = a_record_from_hosts(boot->tftp_sname, now);
995:
996: if (boot->file)
1.1.1.4 misho 997: safe_strncpy((char *)mess->file, boot->file, sizeof(mess->file));
1.1 misho 998: }
999:
1000: option_put(mess, end, OPTION_MESSAGE_TYPE, 1,
1001: mess_type == DHCPDISCOVER ? DHCPOFFER : DHCPACK);
1.1.1.3 misho 1002: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, htonl(tmp->local.s_addr));
1.1.1.4 misho 1003: pxe_misc(mess, end, uuid, pxevendor);
1.1 misho 1004: prune_vendor_opts(tagif_netid);
1.1.1.3 misho 1005: if ((pxe && !workaround) || !redirect4011)
1006: do_encap_opts(pxe_opts(pxearch, tagif_netid, tmp->local, now), OPTION_VENDOR_CLASS_OPT, DHOPT_VENDOR_MATCH, mess, end, 0);
1007:
1.1.1.4 misho 1008: daemon->metrics[METRIC_PXE]++;
1.1.1.2 misho 1009: log_packet("PXE", NULL, emac, emac_len, iface_name, ignore ? "proxy-ignored" : "proxy", NULL, mess->xid);
1.1 misho 1010: log_tags(tagif_netid, ntohl(mess->xid));
1.1.1.4 misho 1011: if (!ignore)
1012: apply_delay(mess->xid, recvtime, tagif_netid);
1.1 misho 1013: return ignore ? 0 : dhcp_packet_size(mess, agent_id, real_end);
1014: }
1015: }
1016: }
1017: }
1018:
1019: /* if we're just a proxy server, go no further */
1020: if ((context->flags & CONTEXT_PROXY) || pxe)
1021: return 0;
1022:
1023: if ((opt = option_find(mess, sz, OPTION_REQUESTED_OPTIONS, 0)))
1024: {
1025: req_options = (unsigned char *)daemon->dhcp_buff2;
1026: memcpy(req_options, option_ptr(opt, 0), option_len(opt));
1027: req_options[option_len(opt)] = OPTION_END;
1028: }
1029:
1030: switch (mess_type)
1031: {
1032: case DHCPDECLINE:
1033: if (!(opt = option_find(mess, sz, OPTION_SERVER_IDENTIFIER, INADDRSZ)) ||
1034: option_addr(opt).s_addr != server_id(context, override, fallback).s_addr)
1035: return 0;
1036:
1037: /* sanitise any message. Paranoid? Moi? */
1038: sanitise(option_find(mess, sz, OPTION_MESSAGE, 1), daemon->dhcp_buff);
1039:
1040: if (!(opt = option_find(mess, sz, OPTION_REQUESTED_IP, INADDRSZ)))
1041: return 0;
1042:
1.1.1.4 misho 1043: daemon->metrics[METRIC_DHCPDECLINE]++;
1.1.1.2 misho 1044: log_packet("DHCPDECLINE", option_ptr(opt, 0), emac, emac_len, iface_name, NULL, daemon->dhcp_buff, mess->xid);
1.1 misho 1045:
1046: if (lease && lease->addr.s_addr == option_addr(opt).s_addr)
1047: lease_prune(lease, now);
1048:
1049: if (have_config(config, CONFIG_ADDR) &&
1050: config->addr.s_addr == option_addr(opt).s_addr)
1051: {
1052: prettyprint_time(daemon->dhcp_buff, DECLINE_BACKOFF);
1.1.1.5 ! misho 1053: inet_ntop(AF_INET, &config->addr, daemon->addrbuff, ADDRSTRLEN);
1.1 misho 1054: my_syslog(MS_DHCP | LOG_WARNING, _("disabling DHCP static address %s for %s"),
1.1.1.5 ! misho 1055: daemon->addrbuff, daemon->dhcp_buff);
1.1 misho 1056: config->flags |= CONFIG_DECLINED;
1057: config->decline_time = now;
1058: }
1059: else
1060: /* make sure this host gets a different address next time. */
1061: for (; context; context = context->current)
1062: context->addr_epoch++;
1063:
1064: return 0;
1065:
1066: case DHCPRELEASE:
1067: if (!(context = narrow_context(context, mess->ciaddr, tagif_netid)) ||
1068: !(opt = option_find(mess, sz, OPTION_SERVER_IDENTIFIER, INADDRSZ)) ||
1069: option_addr(opt).s_addr != server_id(context, override, fallback).s_addr)
1070: return 0;
1071:
1072: if (lease && lease->addr.s_addr == mess->ciaddr.s_addr)
1073: lease_prune(lease, now);
1074: else
1075: message = _("unknown lease");
1076:
1.1.1.4 misho 1077: daemon->metrics[METRIC_DHCPRELEASE]++;
1.1.1.2 misho 1078: log_packet("DHCPRELEASE", &mess->ciaddr, emac, emac_len, iface_name, NULL, message, mess->xid);
1.1 misho 1079:
1080: return 0;
1081:
1082: case DHCPDISCOVER:
1083: if (ignore || have_config(config, CONFIG_DISABLE))
1084: {
1.1.1.2 misho 1085: if (option_bool(OPT_QUIET_DHCP))
1086: return 0;
1.1 misho 1087: message = _("ignored");
1088: opt = NULL;
1089: }
1090: else
1091: {
1092: struct in_addr addr, conf;
1093:
1094: addr.s_addr = conf.s_addr = 0;
1095:
1096: if ((opt = option_find(mess, sz, OPTION_REQUESTED_IP, INADDRSZ)))
1097: addr = option_addr(opt);
1098:
1099: if (have_config(config, CONFIG_ADDR))
1100: {
1.1.1.5 ! misho 1101: inet_ntop(AF_INET, &config->addr, daemon->addrbuff, ADDRSTRLEN);
1.1 misho 1102:
1103: if ((ltmp = lease_find_by_addr(config->addr)) &&
1104: ltmp != lease &&
1105: !config_has_mac(config, ltmp->hwaddr, ltmp->hwaddr_len, ltmp->hwaddr_type))
1106: {
1107: int len;
1108: unsigned char *mac = extended_hwaddr(ltmp->hwaddr_type, ltmp->hwaddr_len,
1109: ltmp->hwaddr, ltmp->clid_len, ltmp->clid, &len);
1110: my_syslog(MS_DHCP | LOG_WARNING, _("not using configured address %s because it is leased to %s"),
1.1.1.5 ! misho 1111: daemon->addrbuff, print_mac(daemon->namebuff, mac, len));
1.1 misho 1112: }
1113: else
1114: {
1115: struct dhcp_context *tmp;
1116: for (tmp = context; tmp; tmp = tmp->current)
1117: if (context->router.s_addr == config->addr.s_addr)
1118: break;
1119: if (tmp)
1.1.1.5 ! misho 1120: my_syslog(MS_DHCP | LOG_WARNING, _("not using configured address %s because it is in use by the server or relay"), daemon->addrbuff);
1.1 misho 1121: else if (have_config(config, CONFIG_DECLINED) &&
1122: difftime(now, config->decline_time) < (float)DECLINE_BACKOFF)
1.1.1.5 ! misho 1123: my_syslog(MS_DHCP | LOG_WARNING, _("not using configured address %s because it was previously declined"), daemon->addrbuff);
1.1 misho 1124: else
1125: conf = config->addr;
1126: }
1127: }
1128:
1129: if (conf.s_addr)
1130: mess->yiaddr = conf;
1131: else if (lease &&
1132: address_available(context, lease->addr, tagif_netid) &&
1133: !config_find_by_address(daemon->dhcp_conf, lease->addr))
1134: mess->yiaddr = lease->addr;
1135: else if (opt && address_available(context, addr, tagif_netid) && !lease_find_by_addr(addr) &&
1.1.1.4 misho 1136: !config_find_by_address(daemon->dhcp_conf, addr) && do_icmp_ping(now, addr, 0, loopback))
1.1 misho 1137: mess->yiaddr = addr;
1138: else if (emac_len == 0)
1139: message = _("no unique-id");
1.1.1.4 misho 1140: else if (!address_allocate(context, &mess->yiaddr, emac, emac_len, tagif_netid, now, loopback))
1.1 misho 1141: message = _("no address available");
1142: }
1143:
1.1.1.4 misho 1144: daemon->metrics[METRIC_DHCPDISCOVER]++;
1.1.1.2 misho 1145: log_packet("DHCPDISCOVER", opt ? option_ptr(opt, 0) : NULL, emac, emac_len, iface_name, NULL, message, mess->xid);
1.1 misho 1146:
1147: if (message || !(context = narrow_context(context, mess->yiaddr, tagif_netid)))
1148: return 0;
1149:
1150: if (context->netid.net)
1151: {
1152: context->netid.next = netid;
1153: tagif_netid = run_tag_if(&context->netid);
1154: }
1155:
1.1.1.4 misho 1156: apply_delay(mess->xid, recvtime, tagif_netid);
1157:
1158: if (option_bool(OPT_RAPID_COMMIT) && option_find(mess, sz, OPTION_RAPID_COMMIT, 0))
1159: {
1160: rapid_commit = 1;
1.1.1.5 ! misho 1161: /* If a lease exists for this host and another address, squash it. */
! 1162: if (lease && lease->addr.s_addr != mess->yiaddr.s_addr)
! 1163: {
! 1164: lease_prune(lease, now);
! 1165: lease = NULL;
! 1166: }
1.1.1.4 misho 1167: goto rapid_commit;
1168: }
1.1 misho 1169:
1.1.1.5 ! misho 1170: log_tags(tagif_netid, ntohl(mess->xid));
! 1171:
1.1.1.4 misho 1172: daemon->metrics[METRIC_DHCPOFFER]++;
1.1.1.2 misho 1173: log_packet("DHCPOFFER" , &mess->yiaddr, emac, emac_len, iface_name, NULL, NULL, mess->xid);
1.1 misho 1174:
1175: time = calc_time(context, config, option_find(mess, sz, OPTION_LEASE_TIME, 4));
1176: clear_packet(mess, end);
1177: option_put(mess, end, OPTION_MESSAGE_TYPE, 1, DHCPOFFER);
1178: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, ntohl(server_id(context, override, fallback).s_addr));
1179: option_put(mess, end, OPTION_LEASE_TIME, 4, time);
1180: /* T1 and T2 are required in DHCPOFFER by HP's wacky Jetdirect client. */
1181: do_options(context, mess, end, req_options, offer_hostname, get_domain(mess->yiaddr),
1.1.1.4 misho 1182: netid, subnet_addr, fqdn_flags, borken_opt, pxearch, uuid, vendor_class_len, now, time, fuzz, pxevendor);
1.1 misho 1183:
1184: return dhcp_packet_size(mess, agent_id, real_end);
1.1.1.4 misho 1185:
1186:
1.1 misho 1187: case DHCPREQUEST:
1188: if (ignore || have_config(config, CONFIG_DISABLE))
1189: return 0;
1190: if ((opt = option_find(mess, sz, OPTION_REQUESTED_IP, INADDRSZ)))
1191: {
1192: /* SELECTING or INIT_REBOOT */
1193: mess->yiaddr = option_addr(opt);
1194:
1195: /* send vendor and user class info for new or recreated lease */
1196: do_classes = 1;
1197:
1198: if ((opt = option_find(mess, sz, OPTION_SERVER_IDENTIFIER, INADDRSZ)))
1199: {
1200: /* SELECTING */
1201: selecting = 1;
1202:
1203: if (override.s_addr != 0)
1204: {
1205: if (option_addr(opt).s_addr != override.s_addr)
1206: return 0;
1207: }
1208: else
1209: {
1210: for (; context; context = context->current)
1211: if (context->local.s_addr == option_addr(opt).s_addr)
1212: break;
1213:
1214: if (!context)
1215: {
1216: /* Handle very strange configs where clients have more than one route to the server.
1217: If a clients idea of its server-id matches any of our DHCP interfaces, we let it pass.
1218: Have to set override to make sure we echo back the correct server-id */
1219: struct irec *intr;
1220:
1.1.1.2 misho 1221: enumerate_interfaces(0);
1.1 misho 1222:
1223: for (intr = daemon->interfaces; intr; intr = intr->next)
1224: if (intr->addr.sa.sa_family == AF_INET &&
1225: intr->addr.in.sin_addr.s_addr == option_addr(opt).s_addr &&
1226: intr->tftp_ok)
1227: break;
1228:
1229: if (intr)
1230: override = intr->addr.in.sin_addr;
1231: else
1232: {
1233: /* In auth mode, a REQUEST sent to the wrong server
1234: should be faulted, so that the client establishes
1235: communication with us, otherwise, silently ignore. */
1236: if (!option_bool(OPT_AUTHORITATIVE))
1237: return 0;
1238: message = _("wrong server-ID");
1239: }
1240: }
1241: }
1242:
1243: /* If a lease exists for this host and another address, squash it. */
1244: if (lease && lease->addr.s_addr != mess->yiaddr.s_addr)
1245: {
1246: lease_prune(lease, now);
1247: lease = NULL;
1248: }
1249: }
1250: else
1251: {
1252: /* INIT-REBOOT */
1253: if (!lease && !option_bool(OPT_AUTHORITATIVE))
1254: return 0;
1255:
1256: if (lease && lease->addr.s_addr != mess->yiaddr.s_addr)
1257: message = _("wrong address");
1258: }
1259: }
1260: else
1261: {
1262: /* RENEWING or REBINDING */
1263: /* Check existing lease for this address.
1264: We allow it to be missing if dhcp-authoritative mode
1265: as long as we can allocate the lease now - checked below.
1266: This makes for a smooth recovery from a lost lease DB */
1267: if ((lease && mess->ciaddr.s_addr != lease->addr.s_addr) ||
1268: (!lease && !option_bool(OPT_AUTHORITATIVE)))
1269: {
1270: /* A client rebinding will broadcast the request, so we may see it even
1271: if the lease is held by another server. Just ignore it in that case.
1272: If the request is unicast to us, then somethings wrong, NAK */
1273: if (!unicast_dest)
1274: return 0;
1275: message = _("lease not found");
1276: /* ensure we broadcast NAK */
1277: unicast_dest = 0;
1278: }
1279:
1280: /* desynchronise renewals */
1281: fuzz = rand16();
1282: mess->yiaddr = mess->ciaddr;
1283: }
1.1.1.4 misho 1284:
1285: daemon->metrics[METRIC_DHCPREQUEST]++;
1.1.1.2 misho 1286: log_packet("DHCPREQUEST", &mess->yiaddr, emac, emac_len, iface_name, NULL, NULL, mess->xid);
1.1.1.4 misho 1287:
1288: rapid_commit:
1.1 misho 1289: if (!message)
1290: {
1291: struct dhcp_config *addr_config;
1292: struct dhcp_context *tmp = NULL;
1293:
1294: if (have_config(config, CONFIG_ADDR))
1295: for (tmp = context; tmp; tmp = tmp->current)
1296: if (context->router.s_addr == config->addr.s_addr)
1297: break;
1298:
1299: if (!(context = narrow_context(context, mess->yiaddr, tagif_netid)))
1300: {
1301: /* If a machine moves networks whilst it has a lease, we catch that here. */
1302: message = _("wrong network");
1303: /* ensure we broadcast NAK */
1304: unicast_dest = 0;
1305: }
1306:
1307: /* Check for renewal of a lease which is outside the allowed range. */
1308: else if (!address_available(context, mess->yiaddr, tagif_netid) &&
1309: (!have_config(config, CONFIG_ADDR) || config->addr.s_addr != mess->yiaddr.s_addr))
1310: message = _("address not available");
1311:
1312: /* Check if a new static address has been configured. Be very sure that
1313: when the client does DISCOVER, it will get the static address, otherwise
1314: an endless protocol loop will ensue. */
1315: else if (!tmp && !selecting &&
1316: have_config(config, CONFIG_ADDR) &&
1317: (!have_config(config, CONFIG_DECLINED) ||
1318: difftime(now, config->decline_time) > (float)DECLINE_BACKOFF) &&
1319: config->addr.s_addr != mess->yiaddr.s_addr &&
1320: (!(ltmp = lease_find_by_addr(config->addr)) || ltmp == lease))
1321: message = _("static lease available");
1322:
1323: /* Check to see if the address is reserved as a static address for another host */
1324: else if ((addr_config = config_find_by_address(daemon->dhcp_conf, mess->yiaddr)) && addr_config != config)
1325: message = _("address reserved");
1326:
1327: else if (!lease && (ltmp = lease_find_by_addr(mess->yiaddr)))
1328: {
1329: /* If a host is configured with more than one MAC address, it's OK to 'nix
1330: a lease from one of it's MACs to give the address to another. */
1331: if (config && config_has_mac(config, ltmp->hwaddr, ltmp->hwaddr_len, ltmp->hwaddr_type))
1332: {
1.1.1.5 ! misho 1333: inet_ntop(AF_INET, <mp->addr, daemon->addrbuff, ADDRSTRLEN);
1.1 misho 1334: my_syslog(MS_DHCP | LOG_INFO, _("abandoning lease to %s of %s"),
1335: print_mac(daemon->namebuff, ltmp->hwaddr, ltmp->hwaddr_len),
1.1.1.5 ! misho 1336: daemon->addrbuff);
1.1 misho 1337: lease = ltmp;
1338: }
1339: else
1340: message = _("address in use");
1341: }
1342:
1343: if (!message)
1344: {
1345: if (emac_len == 0)
1346: message = _("no unique-id");
1347:
1348: else if (!lease)
1349: {
1350: if ((lease = lease4_allocate(mess->yiaddr)))
1351: do_classes = 1;
1352: else
1353: message = _("no leases left");
1354: }
1355: }
1356: }
1357:
1358: if (message)
1359: {
1.1.1.4 misho 1360: daemon->metrics[rapid_commit ? METRIC_NOANSWER : METRIC_DHCPNAK]++;
1361: log_packet(rapid_commit ? "NOANSWER" : "DHCPNAK", &mess->yiaddr, emac, emac_len, iface_name, NULL, message, mess->xid);
1362:
1363: /* rapid commit case: lease allocate failed but don't send DHCPNAK */
1364: if (rapid_commit)
1365: return 0;
1.1 misho 1366:
1367: mess->yiaddr.s_addr = 0;
1368: clear_packet(mess, end);
1369: option_put(mess, end, OPTION_MESSAGE_TYPE, 1, DHCPNAK);
1370: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, ntohl(server_id(context, override, fallback).s_addr));
1371: option_put_string(mess, end, OPTION_MESSAGE, message, borken_opt);
1372: /* This fixes a problem with the DHCP spec, broadcasting a NAK to a host on
1373: a distant subnet which unicast a REQ to us won't work. */
1374: if (!unicast_dest || mess->giaddr.s_addr != 0 ||
1375: mess->ciaddr.s_addr == 0 || is_same_net(context->local, mess->ciaddr, context->netmask))
1376: {
1377: mess->flags |= htons(0x8000); /* broadcast */
1378: mess->ciaddr.s_addr = 0;
1379: }
1380: }
1381: else
1382: {
1383: if (context->netid.net)
1384: {
1385: context->netid.next = netid;
1386: tagif_netid = run_tag_if( &context->netid);
1387: }
1388:
1389: log_tags(tagif_netid, ntohl(mess->xid));
1390:
1391: if (do_classes)
1392: {
1393: /* pick up INIT-REBOOT events. */
1394: lease->flags |= LEASE_CHANGED;
1395:
1396: #ifdef HAVE_SCRIPT
1397: if (daemon->lease_change_command)
1398: {
1399: struct dhcp_netid *n;
1400:
1401: if (mess->giaddr.s_addr)
1402: lease->giaddr = mess->giaddr;
1403:
1404: free(lease->extradata);
1405: lease->extradata = NULL;
1406: lease->extradata_size = lease->extradata_len = 0;
1407:
1408: add_extradata_opt(lease, option_find(mess, sz, OPTION_VENDOR_ID, 1));
1409: add_extradata_opt(lease, option_find(mess, sz, OPTION_HOSTNAME, 1));
1410: add_extradata_opt(lease, oui);
1411: add_extradata_opt(lease, serial);
1412: add_extradata_opt(lease, class);
1413:
1414: if ((opt = option_find(mess, sz, OPTION_AGENT_ID, 1)))
1415: {
1416: add_extradata_opt(lease, option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_CIRCUIT_ID, 1));
1417: add_extradata_opt(lease, option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_SUBSCR_ID, 1));
1418: add_extradata_opt(lease, option_find1(option_ptr(opt, 0), option_ptr(opt, option_len(opt)), SUBOPT_REMOTE_ID, 1));
1419: }
1420: else
1421: {
1422: add_extradata_opt(lease, NULL);
1423: add_extradata_opt(lease, NULL);
1424: add_extradata_opt(lease, NULL);
1425: }
1426:
1.1.1.4 misho 1427: /* DNSMASQ_REQUESTED_OPTIONS */
1428: if ((opt = option_find(mess, sz, OPTION_REQUESTED_OPTIONS, 1)))
1429: {
1.1.1.5 ! misho 1430: int i, len = option_len(opt);
1.1.1.4 misho 1431: unsigned char *rop = option_ptr(opt, 0);
1.1.1.5 ! misho 1432:
1.1.1.4 misho 1433: for (i = 0; i < len; i++)
1.1.1.5 ! misho 1434: lease_add_extradata(lease, (unsigned char *)daemon->namebuff,
! 1435: sprintf(daemon->namebuff, "%u", rop[i]), (i + 1) == len ? 0 : ',');
1.1.1.4 misho 1436: }
1437: else
1.1.1.5 ! misho 1438: lease_add_extradata(lease, NULL, 0, 0);
! 1439:
! 1440: add_extradata_opt(lease, option_find(mess, sz, OPTION_MUD_URL_V4, 1));
! 1441:
1.1 misho 1442: /* space-concat tag set */
1443: if (!tagif_netid)
1444: add_extradata_opt(lease, NULL);
1445: else
1446: for (n = tagif_netid; n; n = n->next)
1447: {
1448: struct dhcp_netid *n1;
1449: /* kill dupes */
1450: for (n1 = n->next; n1; n1 = n1->next)
1451: if (strcmp(n->net, n1->net) == 0)
1452: break;
1453: if (!n1)
1454: lease_add_extradata(lease, (unsigned char *)n->net, strlen(n->net), n->next ? ' ' : 0);
1455: }
1456:
1457: if ((opt = option_find(mess, sz, OPTION_USER_CLASS, 1)))
1458: {
1459: int len = option_len(opt);
1460: unsigned char *ucp = option_ptr(opt, 0);
1461: /* If the user-class option started as counted strings, the first byte will be zero. */
1462: if (len != 0 && ucp[0] == 0)
1463: ucp++, len--;
1.1.1.3 misho 1464: lease_add_extradata(lease, ucp, len, -1);
1.1 misho 1465: }
1466: }
1467: #endif
1468: }
1469:
1470: if (!hostname_auth && (client_hostname = host_from_dns(mess->yiaddr)))
1471: {
1472: domain = get_domain(mess->yiaddr);
1473: hostname = client_hostname;
1474: hostname_auth = 1;
1475: }
1476:
1477: time = calc_time(context, config, option_find(mess, sz, OPTION_LEASE_TIME, 4));
1478: lease_set_hwaddr(lease, mess->chaddr, clid, mess->hlen, mess->htype, clid_len, now, do_classes);
1479:
1480: /* if all the netids in the ignore_name list are present, ignore client-supplied name */
1481: if (!hostname_auth)
1482: {
1483: for (id_list = daemon->dhcp_ignore_names; id_list; id_list = id_list->next)
1484: if ((!id_list->list) || match_netid(id_list->list, tagif_netid, 0))
1485: break;
1486: if (id_list)
1487: hostname = NULL;
1488: }
1489:
1490: /* Last ditch, if configured, generate hostname from mac address */
1491: if (!hostname && emac_len != 0)
1492: {
1493: for (id_list = daemon->dhcp_gen_names; id_list; id_list = id_list->next)
1494: if ((!id_list->list) || match_netid(id_list->list, tagif_netid, 0))
1495: break;
1496: if (id_list)
1497: {
1498: int i;
1499:
1500: hostname = daemon->dhcp_buff;
1501: /* buffer is 256 bytes, 3 bytes per octet */
1502: for (i = 0; (i < emac_len) && (i < 80); i++)
1503: hostname += sprintf(hostname, "%.2x%s", emac[i], (i == emac_len - 1) ? "" : "-");
1504: hostname = daemon->dhcp_buff;
1505: }
1506: }
1507:
1508: if (hostname)
1509: lease_set_hostname(lease, hostname, hostname_auth, get_domain(lease->addr), domain);
1510:
1511: lease_set_expires(lease, time, now);
1512: lease_set_interface(lease, int_index, now);
1513:
1514: if (override.s_addr != 0)
1515: lease->override = override;
1516: else
1517: override = lease->override;
1518:
1.1.1.4 misho 1519: daemon->metrics[METRIC_DHCPACK]++;
1.1.1.2 misho 1520: log_packet("DHCPACK", &mess->yiaddr, emac, emac_len, iface_name, hostname, NULL, mess->xid);
1.1.1.4 misho 1521:
1.1 misho 1522: clear_packet(mess, end);
1523: option_put(mess, end, OPTION_MESSAGE_TYPE, 1, DHCPACK);
1524: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, ntohl(server_id(context, override, fallback).s_addr));
1525: option_put(mess, end, OPTION_LEASE_TIME, 4, time);
1.1.1.4 misho 1526: if (rapid_commit)
1527: option_put(mess, end, OPTION_RAPID_COMMIT, 0, 0);
1528: do_options(context, mess, end, req_options, hostname, get_domain(mess->yiaddr),
1529: netid, subnet_addr, fqdn_flags, borken_opt, pxearch, uuid, vendor_class_len, now, time, fuzz, pxevendor);
1.1 misho 1530: }
1531:
1532: return dhcp_packet_size(mess, agent_id, real_end);
1533:
1534: case DHCPINFORM:
1535: if (ignore || have_config(config, CONFIG_DISABLE))
1536: message = _("ignored");
1537:
1.1.1.4 misho 1538: daemon->metrics[METRIC_DHCPINFORM]++;
1.1.1.2 misho 1539: log_packet("DHCPINFORM", &mess->ciaddr, emac, emac_len, iface_name, message, NULL, mess->xid);
1.1 misho 1540:
1541: if (message || mess->ciaddr.s_addr == 0)
1542: return 0;
1543:
1544: /* For DHCPINFORM only, cope without a valid context */
1545: context = narrow_context(context, mess->ciaddr, tagif_netid);
1546:
1547: /* Find a least based on IP address if we didn't
1548: get one from MAC address/client-d */
1549: if (!lease &&
1550: (lease = lease_find_by_addr(mess->ciaddr)) &&
1551: lease->hostname)
1552: hostname = lease->hostname;
1553:
1.1.1.2 misho 1554: if (!hostname)
1555: hostname = host_from_dns(mess->ciaddr);
1.1 misho 1556:
1557: if (context && context->netid.net)
1558: {
1559: context->netid.next = netid;
1560: tagif_netid = run_tag_if(&context->netid);
1561: }
1562:
1563: log_tags(tagif_netid, ntohl(mess->xid));
1564:
1.1.1.4 misho 1565: daemon->metrics[METRIC_DHCPACK]++;
1.1.1.2 misho 1566: log_packet("DHCPACK", &mess->ciaddr, emac, emac_len, iface_name, hostname, NULL, mess->xid);
1.1 misho 1567:
1568: if (lease)
1569: {
1570: lease_set_interface(lease, int_index, now);
1571: if (override.s_addr != 0)
1572: lease->override = override;
1573: else
1574: override = lease->override;
1575: }
1576:
1577: clear_packet(mess, end);
1578: option_put(mess, end, OPTION_MESSAGE_TYPE, 1, DHCPACK);
1579: option_put(mess, end, OPTION_SERVER_IDENTIFIER, INADDRSZ, ntohl(server_id(context, override, fallback).s_addr));
1.1.1.2 misho 1580:
1581: /* RFC 2131 says that DHCPINFORM shouldn't include lease-time parameters, but
1582: we supply a utility which makes DHCPINFORM requests to get this information.
1583: Only include lease time if OPTION_LEASE_TIME is in the parameter request list,
1584: which won't be true for ordinary clients, but will be true for the
1585: dhcp_lease_time utility. */
1586: if (lease && in_list(req_options, OPTION_LEASE_TIME))
1587: {
1588: if (lease->expires == 0)
1589: time = 0xffffffff;
1590: else
1591: time = (unsigned int)difftime(lease->expires, now);
1592: option_put(mess, end, OPTION_LEASE_TIME, 4, time);
1593: }
1594:
1.1 misho 1595: do_options(context, mess, end, req_options, hostname, get_domain(mess->ciaddr),
1.1.1.4 misho 1596: netid, subnet_addr, fqdn_flags, borken_opt, pxearch, uuid, vendor_class_len, now, 0xffffffff, 0, pxevendor);
1.1 misho 1597:
1598: *is_inform = 1; /* handle reply differently */
1599: return dhcp_packet_size(mess, agent_id, real_end);
1600: }
1601:
1602: return 0;
1603: }
1604:
1605: /* find a good value to use as MAC address for logging and address-allocation hashing.
1606: This is normally just the chaddr field from the DHCP packet,
1607: but eg Firewire will have hlen == 0 and use the client-id instead.
1608: This could be anything, but will normally be EUI64 for Firewire.
1609: We assume that if the first byte of the client-id equals the htype byte
1610: then the client-id is using the usual encoding and use the rest of the
1611: client-id: if not we can use the whole client-id. This should give
1612: sane MAC address logs. */
1613: unsigned char *extended_hwaddr(int hwtype, int hwlen, unsigned char *hwaddr,
1614: int clid_len, unsigned char *clid, int *len_out)
1615: {
1616: if (hwlen == 0 && clid && clid_len > 3)
1617: {
1618: if (clid[0] == hwtype)
1619: {
1620: *len_out = clid_len - 1 ;
1621: return clid + 1;
1622: }
1623:
1624: #if defined(ARPHRD_EUI64) && defined(ARPHRD_IEEE1394)
1625: if (clid[0] == ARPHRD_EUI64 && hwtype == ARPHRD_IEEE1394)
1626: {
1627: *len_out = clid_len - 1 ;
1628: return clid + 1;
1629: }
1630: #endif
1631:
1632: *len_out = clid_len;
1633: return clid;
1634: }
1635:
1636: *len_out = hwlen;
1637: return hwaddr;
1638: }
1639:
1640: static unsigned int calc_time(struct dhcp_context *context, struct dhcp_config *config, unsigned char *opt)
1641: {
1642: unsigned int time = have_config(config, CONFIG_TIME) ? config->lease_time : context->lease_time;
1643:
1644: if (opt)
1645: {
1646: unsigned int req_time = option_uint(opt, 0, 4);
1647: if (req_time < 120 )
1648: req_time = 120; /* sanity */
1649: if (time == 0xffffffff || (req_time != 0xffffffff && req_time < time))
1650: time = req_time;
1651: }
1652:
1653: return time;
1654: }
1655:
1656: static struct in_addr server_id(struct dhcp_context *context, struct in_addr override, struct in_addr fallback)
1657: {
1658: if (override.s_addr != 0)
1659: return override;
1660: else if (context && context->local.s_addr != 0)
1661: return context->local;
1662: else
1663: return fallback;
1664: }
1665:
1666: static int sanitise(unsigned char *opt, char *buf)
1667: {
1668: char *p;
1669: int i;
1670:
1671: *buf = 0;
1672:
1673: if (!opt)
1674: return 0;
1675:
1676: p = option_ptr(opt, 0);
1677:
1678: for (i = option_len(opt); i > 0; i--)
1679: {
1680: char c = *p++;
1.1.1.5 ! misho 1681: if (isprint((unsigned char)c))
1.1 misho 1682: *buf++ = c;
1683: }
1684: *buf = 0; /* add terminator */
1685:
1686: return 1;
1687: }
1688:
1689: #ifdef HAVE_SCRIPT
1690: static void add_extradata_opt(struct dhcp_lease *lease, unsigned char *opt)
1691: {
1692: if (!opt)
1693: lease_add_extradata(lease, NULL, 0, 0);
1694: else
1695: lease_add_extradata(lease, option_ptr(opt, 0), option_len(opt), 0);
1696: }
1697: #endif
1698:
1699: static void log_packet(char *type, void *addr, unsigned char *ext_mac,
1.1.1.2 misho 1700: int mac_len, char *interface, char *string, char *err, u32 xid)
1.1 misho 1701: {
1.1.1.2 misho 1702: if (!err && !option_bool(OPT_LOG_OPTS) && option_bool(OPT_QUIET_DHCP))
1703: return;
1704:
1.1.1.5 ! misho 1705: daemon->addrbuff[0] = 0;
1.1 misho 1706: if (addr)
1.1.1.5 ! misho 1707: inet_ntop(AF_INET, addr, daemon->addrbuff, ADDRSTRLEN);
1.1 misho 1708:
1709: print_mac(daemon->namebuff, ext_mac, mac_len);
1710:
1.1.1.5 ! misho 1711: if (option_bool(OPT_LOG_OPTS))
! 1712: my_syslog(MS_DHCP | LOG_INFO, "%u %s(%s) %s%s%s %s%s",
! 1713: ntohl(xid),
! 1714: type,
! 1715: interface,
! 1716: daemon->addrbuff,
! 1717: addr ? " " : "",
! 1718: daemon->namebuff,
! 1719: string ? string : "",
! 1720: err ? err : "");
1.1 misho 1721: else
1.1.1.2 misho 1722: my_syslog(MS_DHCP | LOG_INFO, "%s(%s) %s%s%s %s%s",
1.1 misho 1723: type,
1724: interface,
1.1.1.5 ! misho 1725: daemon->addrbuff,
1.1 misho 1726: addr ? " " : "",
1727: daemon->namebuff,
1.1.1.2 misho 1728: string ? string : "",
1729: err ? err : "");
1.1.1.5 ! misho 1730:
1.1.1.4 misho 1731: #ifdef HAVE_UBUS
1.1.1.5 ! misho 1732: if (!strcmp(type, "DHCPACK"))
! 1733: ubus_event_bcast("dhcp.ack", daemon->namebuff, addr ? daemon->addrbuff : NULL, string, interface);
! 1734: else if (!strcmp(type, "DHCPRELEASE"))
! 1735: ubus_event_bcast("dhcp.release", daemon->namebuff, addr ? daemon->addrbuff : NULL, string, interface);
1.1.1.4 misho 1736: #endif
1.1 misho 1737: }
1738:
1739: static void log_options(unsigned char *start, u32 xid)
1740: {
1741: while (*start != OPTION_END)
1742: {
1743: char *optname = option_string(AF_INET, start[0], option_ptr(start, 0), option_len(start), daemon->namebuff, MAXDNAME);
1744:
1745: my_syslog(MS_DHCP | LOG_INFO, "%u sent size:%3d option:%3d %s %s",
1746: ntohl(xid), option_len(start), start[0], optname, daemon->namebuff);
1747: start += start[1] + 2;
1748: }
1749: }
1750:
1751: static unsigned char *option_find1(unsigned char *p, unsigned char *end, int opt, int minsize)
1752: {
1753: while (1)
1754: {
1.1.1.4 misho 1755: if (p >= end)
1.1 misho 1756: return NULL;
1757: else if (*p == OPTION_END)
1758: return opt == OPTION_END ? p : NULL;
1759: else if (*p == OPTION_PAD)
1760: p++;
1761: else
1762: {
1763: int opt_len;
1764: if (p > end - 2)
1765: return NULL; /* malformed packet */
1766: opt_len = option_len(p);
1767: if (p > end - (2 + opt_len))
1768: return NULL; /* malformed packet */
1769: if (*p == opt && opt_len >= minsize)
1770: return p;
1771: p += opt_len + 2;
1772: }
1773: }
1774: }
1775:
1776: static unsigned char *option_find(struct dhcp_packet *mess, size_t size, int opt_type, int minsize)
1777: {
1778: unsigned char *ret, *overload;
1779:
1780: /* skip over DHCP cookie; */
1781: if ((ret = option_find1(&mess->options[0] + sizeof(u32), ((unsigned char *)mess) + size, opt_type, minsize)))
1782: return ret;
1783:
1784: /* look for overload option. */
1785: if (!(overload = option_find1(&mess->options[0] + sizeof(u32), ((unsigned char *)mess) + size, OPTION_OVERLOAD, 1)))
1786: return NULL;
1787:
1788: /* Can we look in filename area ? */
1789: if ((overload[2] & 1) &&
1790: (ret = option_find1(&mess->file[0], &mess->file[128], opt_type, minsize)))
1791: return ret;
1792:
1793: /* finally try sname area */
1794: if ((overload[2] & 2) &&
1795: (ret = option_find1(&mess->sname[0], &mess->sname[64], opt_type, minsize)))
1796: return ret;
1797:
1798: return NULL;
1799: }
1800:
1801: static struct in_addr option_addr(unsigned char *opt)
1802: {
1803: /* this worries about unaligned data in the option. */
1804: /* struct in_addr is network byte order */
1805: struct in_addr ret;
1806:
1807: memcpy(&ret, option_ptr(opt, 0), INADDRSZ);
1808:
1809: return ret;
1810: }
1811:
1812: static unsigned int option_uint(unsigned char *opt, int offset, int size)
1813: {
1814: /* this worries about unaligned data and byte order */
1815: unsigned int ret = 0;
1816: int i;
1817: unsigned char *p = option_ptr(opt, offset);
1818:
1819: for (i = 0; i < size; i++)
1820: ret = (ret << 8) | *p++;
1821:
1822: return ret;
1823: }
1824:
1825: static unsigned char *dhcp_skip_opts(unsigned char *start)
1826: {
1827: while (*start != 0)
1828: start += start[1] + 2;
1829: return start;
1830: }
1831:
1832: /* only for use when building packet: doesn't check for bad data. */
1833: static unsigned char *find_overload(struct dhcp_packet *mess)
1834: {
1835: unsigned char *p = &mess->options[0] + sizeof(u32);
1836:
1837: while (*p != 0)
1838: {
1839: if (*p == OPTION_OVERLOAD)
1840: return p;
1841: p += p[1] + 2;
1842: }
1843: return NULL;
1844: }
1845:
1846: static size_t dhcp_packet_size(struct dhcp_packet *mess, unsigned char *agent_id, unsigned char *real_end)
1847: {
1848: unsigned char *p = dhcp_skip_opts(&mess->options[0] + sizeof(u32));
1849: unsigned char *overload;
1850: size_t ret;
1851:
1852: /* move agent_id back down to the end of the packet */
1853: if (agent_id)
1854: {
1855: memmove(p, agent_id, real_end - agent_id);
1856: p += real_end - agent_id;
1857: memset(p, 0, real_end - p); /* in case of overlap */
1858: }
1859:
1860: /* add END options to the regions. */
1861: overload = find_overload(mess);
1862:
1863: if (overload && (option_uint(overload, 0, 1) & 1))
1864: {
1865: *dhcp_skip_opts(mess->file) = OPTION_END;
1866: if (option_bool(OPT_LOG_OPTS))
1867: log_options(mess->file, mess->xid);
1868: }
1869: else if (option_bool(OPT_LOG_OPTS) && strlen((char *)mess->file) != 0)
1870: my_syslog(MS_DHCP | LOG_INFO, _("%u bootfile name: %s"), ntohl(mess->xid), (char *)mess->file);
1871:
1872: if (overload && (option_uint(overload, 0, 1) & 2))
1873: {
1874: *dhcp_skip_opts(mess->sname) = OPTION_END;
1875: if (option_bool(OPT_LOG_OPTS))
1876: log_options(mess->sname, mess->xid);
1877: }
1878: else if (option_bool(OPT_LOG_OPTS) && strlen((char *)mess->sname) != 0)
1879: my_syslog(MS_DHCP | LOG_INFO, _("%u server name: %s"), ntohl(mess->xid), (char *)mess->sname);
1880:
1881:
1882: *p++ = OPTION_END;
1883:
1884: if (option_bool(OPT_LOG_OPTS))
1885: {
1886: if (mess->siaddr.s_addr != 0)
1.1.1.5 ! misho 1887: {
! 1888: inet_ntop(AF_INET, &mess->siaddr, daemon->addrbuff, ADDRSTRLEN);
! 1889: my_syslog(MS_DHCP | LOG_INFO, _("%u next server: %s"), ntohl(mess->xid), daemon->addrbuff);
! 1890: }
1.1 misho 1891:
1892: if ((mess->flags & htons(0x8000)) && mess->ciaddr.s_addr == 0)
1893: my_syslog(MS_DHCP | LOG_INFO, _("%u broadcast response"), ntohl(mess->xid));
1894:
1895: log_options(&mess->options[0] + sizeof(u32), mess->xid);
1896: }
1897:
1898: ret = (size_t)(p - (unsigned char *)mess);
1899:
1900: if (ret < MIN_PACKETSZ)
1901: ret = MIN_PACKETSZ;
1902:
1903: return ret;
1904: }
1905:
1906: static unsigned char *free_space(struct dhcp_packet *mess, unsigned char *end, int opt, int len)
1907: {
1908: unsigned char *p = dhcp_skip_opts(&mess->options[0] + sizeof(u32));
1909:
1910: if (p + len + 3 >= end)
1911: /* not enough space in options area, try and use overload, if poss */
1912: {
1913: unsigned char *overload;
1914:
1915: if (!(overload = find_overload(mess)) &&
1916: (mess->file[0] == 0 || mess->sname[0] == 0))
1917: {
1918: /* attempt to overload fname and sname areas, we've reserved space for the
1919: overflow option previuously. */
1920: overload = p;
1921: *(p++) = OPTION_OVERLOAD;
1922: *(p++) = 1;
1923: }
1924:
1925: p = NULL;
1926:
1927: /* using filename field ? */
1928: if (overload)
1929: {
1930: if (mess->file[0] == 0)
1931: overload[2] |= 1;
1932:
1933: if (overload[2] & 1)
1934: {
1935: p = dhcp_skip_opts(mess->file);
1936: if (p + len + 3 >= mess->file + sizeof(mess->file))
1937: p = NULL;
1938: }
1939:
1940: if (!p)
1941: {
1942: /* try to bring sname into play (it may be already) */
1943: if (mess->sname[0] == 0)
1944: overload[2] |= 2;
1945:
1946: if (overload[2] & 2)
1947: {
1948: p = dhcp_skip_opts(mess->sname);
1949: if (p + len + 3 >= mess->sname + sizeof(mess->sname))
1950: p = NULL;
1951: }
1952: }
1953: }
1954:
1955: if (!p)
1956: my_syslog(MS_DHCP | LOG_WARNING, _("cannot send DHCP/BOOTP option %d: no space left in packet"), opt);
1957: }
1958:
1959: if (p)
1960: {
1961: *(p++) = opt;
1962: *(p++) = len;
1963: }
1964:
1965: return p;
1966: }
1967:
1968: static void option_put(struct dhcp_packet *mess, unsigned char *end, int opt, int len, unsigned int val)
1969: {
1970: int i;
1971: unsigned char *p = free_space(mess, end, opt, len);
1972:
1973: if (p)
1974: for (i = 0; i < len; i++)
1975: *(p++) = val >> (8 * (len - (i + 1)));
1976: }
1977:
1978: static void option_put_string(struct dhcp_packet *mess, unsigned char *end, int opt,
1.1.1.4 misho 1979: const char *string, int null_term)
1.1 misho 1980: {
1981: unsigned char *p;
1982: size_t len = strlen(string);
1983:
1984: if (null_term && len != 255)
1985: len++;
1986:
1987: if ((p = free_space(mess, end, opt, len)))
1988: memcpy(p, string, len);
1989: }
1990:
1991: /* return length, note this only does the data part */
1992: static int do_opt(struct dhcp_opt *opt, unsigned char *p, struct dhcp_context *context, int null_term)
1993: {
1994: int len = opt->len;
1995:
1996: if ((opt->flags & DHOPT_STRING) && null_term && len != 255)
1997: len++;
1998:
1999: if (p && len != 0)
2000: {
2001: if (context && (opt->flags & DHOPT_ADDR))
2002: {
2003: int j;
2004: struct in_addr *a = (struct in_addr *)opt->val;
2005: for (j = 0; j < opt->len; j+=INADDRSZ, a++)
2006: {
2007: /* zero means "self" (but not in vendorclass options.) */
2008: if (a->s_addr == 0)
2009: memcpy(p, &context->local, INADDRSZ);
2010: else
2011: memcpy(p, a, INADDRSZ);
2012: p += INADDRSZ;
2013: }
2014: }
2015: else
1.1.1.2 misho 2016: /* empty string may be extended to "\0" by null_term */
2017: memcpy(p, opt->val ? opt->val : (unsigned char *)"", len);
1.1 misho 2018: }
2019: return len;
2020: }
2021:
2022: static int in_list(unsigned char *list, int opt)
2023: {
2024: int i;
2025:
2026: /* If no requested options, send everything, not nothing. */
2027: if (!list)
2028: return 1;
2029:
2030: for (i = 0; list[i] != OPTION_END; i++)
2031: if (opt == list[i])
2032: return 1;
2033:
2034: return 0;
2035: }
2036:
2037: static struct dhcp_opt *option_find2(int opt)
2038: {
2039: struct dhcp_opt *opts;
2040:
2041: for (opts = daemon->dhcp_opts; opts; opts = opts->next)
2042: if (opts->opt == opt && (opts->flags & DHOPT_TAGOK))
2043: return opts;
2044:
2045: return NULL;
2046: }
2047:
2048: /* mark vendor-encapsulated options which match the client-supplied or
2049: config-supplied vendor class */
2050: static void match_vendor_opts(unsigned char *opt, struct dhcp_opt *dopt)
2051: {
2052: for (; dopt; dopt = dopt->next)
2053: {
2054: dopt->flags &= ~DHOPT_VENDOR_MATCH;
2055: if (opt && (dopt->flags & DHOPT_VENDOR))
2056: {
1.1.1.4 misho 2057: const struct dhcp_pxe_vendor *pv;
2058: struct dhcp_pxe_vendor dummy_vendor = {
2059: .data = (char *)dopt->u.vendor_class,
2060: .next = NULL,
2061: };
2062: if (dopt->flags & DHOPT_VENDOR_PXE)
2063: pv = daemon->dhcp_pxe_vendors;
2064: else
2065: pv = &dummy_vendor;
2066: for (; pv; pv = pv->next)
2067: {
2068: int i, len = 0, matched = 0;
2069: if (pv->data)
2070: len = strlen(pv->data);
2071: for (i = 0; i <= (option_len(opt) - len); i++)
2072: if (len == 0 || memcmp(pv->data, option_ptr(opt, i), len) == 0)
2073: {
2074: matched = 1;
2075: break;
2076: }
2077: if (matched)
2078: {
2079: dopt->flags |= DHOPT_VENDOR_MATCH;
2080: break;
2081: }
2082: }
1.1 misho 2083: }
2084: }
2085: }
2086:
2087: static int do_encap_opts(struct dhcp_opt *opt, int encap, int flag,
2088: struct dhcp_packet *mess, unsigned char *end, int null_term)
2089: {
2090: int len, enc_len, ret = 0;
2091: struct dhcp_opt *start;
2092: unsigned char *p;
2093:
2094: /* find size in advance */
2095: for (enc_len = 0, start = opt; opt; opt = opt->next)
2096: if (opt->flags & flag)
2097: {
2098: int new = do_opt(opt, NULL, NULL, null_term) + 2;
2099: ret = 1;
2100: if (enc_len + new <= 255)
2101: enc_len += new;
2102: else
2103: {
2104: p = free_space(mess, end, encap, enc_len);
2105: for (; start && start != opt; start = start->next)
2106: if (p && (start->flags & flag))
2107: {
2108: len = do_opt(start, p + 2, NULL, null_term);
2109: *(p++) = start->opt;
2110: *(p++) = len;
2111: p += len;
2112: }
2113: enc_len = new;
2114: start = opt;
2115: }
2116: }
2117:
2118: if (enc_len != 0 &&
2119: (p = free_space(mess, end, encap, enc_len + 1)))
2120: {
2121: for (; start; start = start->next)
2122: if (start->flags & flag)
2123: {
2124: len = do_opt(start, p + 2, NULL, null_term);
2125: *(p++) = start->opt;
2126: *(p++) = len;
2127: p += len;
2128: }
2129: *p = OPTION_END;
2130: }
2131:
2132: return ret;
2133: }
2134:
1.1.1.4 misho 2135: static void pxe_misc(struct dhcp_packet *mess, unsigned char *end, unsigned char *uuid, const char *pxevendor)
1.1 misho 2136: {
2137: unsigned char *p;
2138:
1.1.1.4 misho 2139: if (!pxevendor)
2140: pxevendor="PXEClient";
2141: option_put_string(mess, end, OPTION_VENDOR_ID, pxevendor, 0);
1.1 misho 2142: if (uuid && (p = free_space(mess, end, OPTION_PXE_UUID, 17)))
2143: memcpy(p, uuid, 17);
2144: }
2145:
2146: static int prune_vendor_opts(struct dhcp_netid *netid)
2147: {
2148: int force = 0;
2149: struct dhcp_opt *opt;
2150:
2151: /* prune vendor-encapsulated options based on netid, and look if we're forcing them to be sent */
2152: for (opt = daemon->dhcp_opts; opt; opt = opt->next)
2153: if (opt->flags & DHOPT_VENDOR_MATCH)
2154: {
2155: if (!match_netid(opt->netid, netid, 1))
2156: opt->flags &= ~DHOPT_VENDOR_MATCH;
2157: else if (opt->flags & DHOPT_FORCE)
2158: force = 1;
2159: }
2160: return force;
2161: }
2162:
1.1.1.3 misho 2163:
2164: /* Many UEFI PXE implementations have badly broken menu code.
2165: If there's exactly one relevant menu item, we abandon the menu system,
2166: and jamb the data direct into the DHCP file, siaddr and sname fields.
2167: Note that in this case, we have to assume that layer zero would be requested
2168: by the client PXE stack. */
2169: static int pxe_uefi_workaround(int pxe_arch, struct dhcp_netid *netid, struct dhcp_packet *mess, struct in_addr local, time_t now, int pxe)
2170: {
2171: struct pxe_service *service, *found;
2172:
2173: /* Only workaround UEFI archs. */
2174: if (pxe_arch < 6)
2175: return 0;
2176:
2177: for (found = NULL, service = daemon->pxe_services; service; service = service->next)
2178: if (pxe_arch == service->CSA && service->basename && match_netid(service->netid, netid, 1))
2179: {
2180: if (found)
2181: return 0; /* More than one relevant menu item */
2182:
2183: found = service;
2184: }
2185:
2186: if (!found)
2187: return 0; /* No relevant menu items. */
2188:
2189: if (!pxe)
2190: return 1;
2191:
2192: if (found->sname)
2193: {
2194: mess->siaddr = a_record_from_hosts(found->sname, now);
2195: snprintf((char *)mess->sname, sizeof(mess->sname), "%s", found->sname);
2196: }
2197: else
2198: {
2199: if (found->server.s_addr != 0)
2200: mess->siaddr = found->server;
2201: else
2202: mess->siaddr = local;
2203:
2204: inet_ntop(AF_INET, &mess->siaddr, (char *)mess->sname, INET_ADDRSTRLEN);
2205: }
2206:
1.1.1.5 ! misho 2207: if (found->basename)
! 2208: snprintf((char *)mess->file, sizeof(mess->file),
! 2209: strchr(found->basename, '.') ? "%s" : "%s.0", found->basename);
1.1.1.3 misho 2210:
2211: return 1;
2212: }
2213:
1.1 misho 2214: static struct dhcp_opt *pxe_opts(int pxe_arch, struct dhcp_netid *netid, struct in_addr local, time_t now)
2215: {
2216: #define NUM_OPTS 4
2217:
2218: unsigned char *p, *q;
2219: struct pxe_service *service;
2220: static struct dhcp_opt *o, *ret;
2221: int i, j = NUM_OPTS - 1;
2222: struct in_addr boot_server;
2223:
2224: /* We pass back references to these, hence they are declared static */
2225: static unsigned char discovery_control;
2226: static unsigned char fake_prompt[] = { 0, 'P', 'X', 'E' };
2227: static struct dhcp_opt *fake_opts = NULL;
2228:
2229: /* Disable multicast, since we don't support it, and broadcast
2230: unless we need it */
2231: discovery_control = 3;
2232:
2233: ret = daemon->dhcp_opts;
2234:
2235: if (!fake_opts && !(fake_opts = whine_malloc(NUM_OPTS * sizeof(struct dhcp_opt))))
2236: return ret;
2237:
2238: for (i = 0; i < NUM_OPTS; i++)
2239: {
2240: fake_opts[i].flags = DHOPT_VENDOR_MATCH;
2241: fake_opts[i].netid = NULL;
2242: fake_opts[i].next = i == (NUM_OPTS - 1) ? ret : &fake_opts[i+1];
2243: }
2244:
2245: /* create the data for the PXE_MENU and PXE_SERVERS options. */
2246: p = (unsigned char *)daemon->dhcp_buff;
2247: q = (unsigned char *)daemon->dhcp_buff3;
2248:
2249: for (i = 0, service = daemon->pxe_services; service; service = service->next)
2250: if (pxe_arch == service->CSA && match_netid(service->netid, netid, 1))
2251: {
2252: size_t len = strlen(service->menu);
2253: /* opt 43 max size is 255. encapsulated option has type and length
2254: bytes, so its max size is 253. */
2255: if (p - (unsigned char *)daemon->dhcp_buff + len + 3 < 253)
2256: {
2257: *(p++) = service->type >> 8;
2258: *(p++) = service->type;
2259: *(p++) = len;
2260: memcpy(p, service->menu, len);
2261: p += len;
2262: i++;
2263: }
2264: else
2265: {
2266: toobig:
2267: my_syslog(MS_DHCP | LOG_ERR, _("PXE menu too large"));
2268: return daemon->dhcp_opts;
2269: }
2270:
2271: boot_server = service->basename ? local :
2272: (service->sname ? a_record_from_hosts(service->sname, now) : service->server);
2273:
2274: if (boot_server.s_addr != 0)
2275: {
2276: if (q - (unsigned char *)daemon->dhcp_buff3 + 3 + INADDRSZ >= 253)
2277: goto toobig;
2278:
2279: /* Boot service with known address - give it */
2280: *(q++) = service->type >> 8;
2281: *(q++) = service->type;
2282: *(q++) = 1;
2283: /* dest misaligned */
2284: memcpy(q, &boot_server.s_addr, INADDRSZ);
2285: q += INADDRSZ;
2286: }
2287: else if (service->type != 0)
2288: /* We don't know the server for a service type, so we'll
2289: allow the client to broadcast for it */
2290: discovery_control = 2;
2291: }
2292:
2293: /* if no prompt, wait forever if there's a choice */
2294: fake_prompt[0] = (i > 1) ? 255 : 0;
2295:
2296: if (i == 0)
2297: discovery_control = 8; /* no menu - just use use mess->filename */
2298: else
2299: {
2300: ret = &fake_opts[j--];
2301: ret->len = p - (unsigned char *)daemon->dhcp_buff;
2302: ret->val = (unsigned char *)daemon->dhcp_buff;
2303: ret->opt = SUBOPT_PXE_MENU;
2304:
2305: if (q - (unsigned char *)daemon->dhcp_buff3 != 0)
2306: {
2307: ret = &fake_opts[j--];
2308: ret->len = q - (unsigned char *)daemon->dhcp_buff3;
2309: ret->val = (unsigned char *)daemon->dhcp_buff3;
2310: ret->opt = SUBOPT_PXE_SERVERS;
2311: }
2312: }
2313:
2314: for (o = daemon->dhcp_opts; o; o = o->next)
2315: if ((o->flags & DHOPT_VENDOR_MATCH) && o->opt == SUBOPT_PXE_MENU_PROMPT)
2316: break;
2317:
2318: if (!o)
2319: {
2320: ret = &fake_opts[j--];
2321: ret->len = sizeof(fake_prompt);
2322: ret->val = fake_prompt;
2323: ret->opt = SUBOPT_PXE_MENU_PROMPT;
2324: }
2325:
2326: ret = &fake_opts[j--];
2327: ret->len = 1;
2328: ret->opt = SUBOPT_PXE_DISCOVERY;
2329: ret->val= &discovery_control;
2330:
2331: return ret;
2332: }
2333:
2334: static void clear_packet(struct dhcp_packet *mess, unsigned char *end)
2335: {
2336: memset(mess->sname, 0, sizeof(mess->sname));
2337: memset(mess->file, 0, sizeof(mess->file));
2338: memset(&mess->options[0] + sizeof(u32), 0, end - (&mess->options[0] + sizeof(u32)));
2339: mess->siaddr.s_addr = 0;
2340: }
2341:
2342: struct dhcp_boot *find_boot(struct dhcp_netid *netid)
2343: {
2344: struct dhcp_boot *boot;
2345:
2346: /* decide which dhcp-boot option we're using */
2347: for (boot = daemon->boot_config; boot; boot = boot->next)
2348: if (match_netid(boot->netid, netid, 0))
2349: break;
2350: if (!boot)
2351: /* No match, look for one without a netid */
2352: for (boot = daemon->boot_config; boot; boot = boot->next)
2353: if (match_netid(boot->netid, netid, 1))
2354: break;
2355:
2356: return boot;
2357: }
2358:
1.1.1.4 misho 2359: static int is_pxe_client(struct dhcp_packet *mess, size_t sz, const char **pxe_vendor)
2360: {
2361: const unsigned char *opt = NULL;
2362: ssize_t conf_len = 0;
2363: const struct dhcp_pxe_vendor *conf = daemon->dhcp_pxe_vendors;
2364: opt = option_find(mess, sz, OPTION_VENDOR_ID, 0);
2365: if (!opt)
2366: return 0;
2367: for (; conf; conf = conf->next)
2368: {
2369: conf_len = strlen(conf->data);
2370: if (option_len(opt) < conf_len)
2371: continue;
2372: if (strncmp(option_ptr(opt, 0), conf->data, conf_len) == 0)
2373: {
2374: if (pxe_vendor)
2375: *pxe_vendor = conf->data;
2376: return 1;
2377: }
2378: }
2379: return 0;
2380: }
2381:
1.1 misho 2382: static void do_options(struct dhcp_context *context,
2383: struct dhcp_packet *mess,
2384: unsigned char *end,
2385: unsigned char *req_options,
2386: char *hostname,
2387: char *domain,
2388: struct dhcp_netid *netid,
2389: struct in_addr subnet_addr,
2390: unsigned char fqdn_flags,
2391: int null_term, int pxe_arch,
2392: unsigned char *uuid,
2393: int vendor_class_len,
1.1.1.3 misho 2394: time_t now,
2395: unsigned int lease_time,
1.1.1.4 misho 2396: unsigned short fuzz,
2397: const char *pxevendor)
1.1 misho 2398: {
2399: struct dhcp_opt *opt, *config_opts = daemon->dhcp_opts;
2400: struct dhcp_boot *boot;
2401: unsigned char *p;
2402: int i, len, force_encap = 0;
2403: unsigned char f0 = 0, s0 = 0;
2404: int done_file = 0, done_server = 0;
2405: int done_vendor_class = 0;
2406: struct dhcp_netid *tagif;
2407: struct dhcp_netid_list *id_list;
2408:
2409: /* filter options based on tags, those we want get DHOPT_TAGOK bit set */
2410: if (context)
2411: context->netid.next = NULL;
2412: tagif = option_filter(netid, context && context->netid.net ? &context->netid : NULL, config_opts);
2413:
2414: /* logging */
2415: if (option_bool(OPT_LOG_OPTS) && req_options)
2416: {
2417: char *q = daemon->namebuff;
2418: for (i = 0; req_options[i] != OPTION_END; i++)
2419: {
2420: char *s = option_string(AF_INET, req_options[i], NULL, 0, NULL, 0);
2421: q += snprintf(q, MAXDNAME - (q - daemon->namebuff),
2422: "%d%s%s%s",
2423: req_options[i],
2424: strlen(s) != 0 ? ":" : "",
2425: s,
2426: req_options[i+1] == OPTION_END ? "" : ", ");
2427: if (req_options[i+1] == OPTION_END || (q - daemon->namebuff) > 40)
2428: {
2429: q = daemon->namebuff;
2430: my_syslog(MS_DHCP | LOG_INFO, _("%u requested options: %s"), ntohl(mess->xid), daemon->namebuff);
2431: }
2432: }
2433: }
2434:
2435: for (id_list = daemon->force_broadcast; id_list; id_list = id_list->next)
2436: if ((!id_list->list) || match_netid(id_list->list, netid, 0))
2437: break;
2438: if (id_list)
2439: mess->flags |= htons(0x8000); /* force broadcast */
2440:
2441: if (context)
2442: mess->siaddr = context->local;
2443:
2444: /* See if we can send the boot stuff as options.
2445: To do this we need a requested option list, BOOTP
2446: and very old DHCP clients won't have this, we also
1.1.1.4 misho 2447: provide a manual option to disable it.
1.1 misho 2448: Some PXE ROMs have bugs (surprise!) and need zero-terminated
2449: names, so we always send those. */
2450: if ((boot = find_boot(tagif)))
2451: {
2452: if (boot->sname)
2453: {
2454: if (!option_bool(OPT_NO_OVERRIDE) &&
2455: req_options &&
2456: in_list(req_options, OPTION_SNAME))
2457: option_put_string(mess, end, OPTION_SNAME, boot->sname, 1);
2458: else
1.1.1.4 misho 2459: safe_strncpy((char *)mess->sname, boot->sname, sizeof(mess->sname));
1.1 misho 2460: }
2461:
2462: if (boot->file)
2463: {
2464: if (!option_bool(OPT_NO_OVERRIDE) &&
2465: req_options &&
2466: in_list(req_options, OPTION_FILENAME))
2467: option_put_string(mess, end, OPTION_FILENAME, boot->file, 1);
2468: else
1.1.1.4 misho 2469: safe_strncpy((char *)mess->file, boot->file, sizeof(mess->file));
1.1 misho 2470: }
2471:
2472: if (boot->next_server.s_addr)
2473: mess->siaddr = boot->next_server;
2474: else if (boot->tftp_sname)
2475: mess->siaddr = a_record_from_hosts(boot->tftp_sname, now);
2476: }
2477: else
2478: /* Use the values of the relevant options if no dhcp-boot given and
2479: they're not explicitly asked for as options. OPTION_END is used
2480: as an internal way to specify siaddr without using dhcp-boot, for use in
2481: dhcp-optsfile. */
2482: {
2483: if ((!req_options || !in_list(req_options, OPTION_FILENAME)) &&
2484: (opt = option_find2(OPTION_FILENAME)) && !(opt->flags & DHOPT_FORCE))
2485: {
1.1.1.4 misho 2486: safe_strncpy((char *)mess->file, (char *)opt->val, sizeof(mess->file));
1.1 misho 2487: done_file = 1;
2488: }
2489:
2490: if ((!req_options || !in_list(req_options, OPTION_SNAME)) &&
2491: (opt = option_find2(OPTION_SNAME)) && !(opt->flags & DHOPT_FORCE))
2492: {
1.1.1.4 misho 2493: safe_strncpy((char *)mess->sname, (char *)opt->val, sizeof(mess->sname));
1.1 misho 2494: done_server = 1;
2495: }
2496:
2497: if ((opt = option_find2(OPTION_END)))
2498: mess->siaddr.s_addr = ((struct in_addr *)opt->val)->s_addr;
2499: }
2500:
2501: /* We don't want to do option-overload for BOOTP, so make the file and sname
2502: fields look like they are in use, even when they aren't. This gets restored
2503: at the end of this function. */
2504:
2505: if (!req_options || option_bool(OPT_NO_OVERRIDE))
2506: {
2507: f0 = mess->file[0];
2508: mess->file[0] = 1;
2509: s0 = mess->sname[0];
2510: mess->sname[0] = 1;
2511: }
2512:
2513: /* At this point, if mess->sname or mess->file are zeroed, they are available
2514: for option overload, reserve space for the overload option. */
2515: if (mess->file[0] == 0 || mess->sname[0] == 0)
2516: end -= 3;
2517:
2518: /* rfc3011 says this doesn't need to be in the requested options list. */
2519: if (subnet_addr.s_addr)
2520: option_put(mess, end, OPTION_SUBNET_SELECT, INADDRSZ, ntohl(subnet_addr.s_addr));
1.1.1.3 misho 2521:
2522: if (lease_time != 0xffffffff)
2523: {
2524: unsigned int t1val = lease_time/2;
2525: unsigned int t2val = (lease_time*7)/8;
2526: unsigned int hval;
2527:
2528: /* If set by user, sanity check, so not longer than lease. */
2529: if ((opt = option_find2(OPTION_T1)))
2530: {
2531: hval = ntohl(*((unsigned int *)opt->val));
2532: if (hval < lease_time && hval > 2)
2533: t1val = hval;
2534: }
2535:
2536: if ((opt = option_find2(OPTION_T2)))
2537: {
2538: hval = ntohl(*((unsigned int *)opt->val));
2539: if (hval < lease_time && hval > 2)
2540: t2val = hval;
2541: }
2542:
2543: /* ensure T1 is still < T2 */
2544: if (t2val <= t1val)
2545: t1val = t2val - 1;
2546:
2547: while (fuzz > (t1val/8))
2548: fuzz = fuzz/2;
2549:
2550: t1val -= fuzz;
2551: t2val -= fuzz;
2552:
2553: option_put(mess, end, OPTION_T1, 4, t1val);
2554: option_put(mess, end, OPTION_T2, 4, t2val);
2555: }
2556:
1.1 misho 2557: /* replies to DHCPINFORM may not have a valid context */
2558: if (context)
2559: {
2560: if (!option_find2(OPTION_NETMASK))
2561: option_put(mess, end, OPTION_NETMASK, INADDRSZ, ntohl(context->netmask.s_addr));
2562:
2563: /* May not have a "guessed" broadcast address if we got no packets via a relay
2564: from this net yet (ie just unicast renewals after a restart */
2565: if (context->broadcast.s_addr &&
2566: !option_find2(OPTION_BROADCAST))
2567: option_put(mess, end, OPTION_BROADCAST, INADDRSZ, ntohl(context->broadcast.s_addr));
2568:
2569: /* Same comments as broadcast apply, and also may not be able to get a sensible
2570: default when using subnet select. User must configure by steam in that case. */
2571: if (context->router.s_addr &&
2572: in_list(req_options, OPTION_ROUTER) &&
2573: !option_find2(OPTION_ROUTER))
2574: option_put(mess, end, OPTION_ROUTER, INADDRSZ, ntohl(context->router.s_addr));
2575:
2576: if (daemon->port == NAMESERVER_PORT &&
2577: in_list(req_options, OPTION_DNSSERVER) &&
2578: !option_find2(OPTION_DNSSERVER))
2579: option_put(mess, end, OPTION_DNSSERVER, INADDRSZ, ntohl(context->local.s_addr));
2580: }
2581:
2582: if (domain && in_list(req_options, OPTION_DOMAINNAME) &&
2583: !option_find2(OPTION_DOMAINNAME))
2584: option_put_string(mess, end, OPTION_DOMAINNAME, domain, null_term);
2585:
2586: /* Note that we ignore attempts to set the fqdn using --dhc-option=81,<name> */
2587: if (hostname)
2588: {
2589: if (in_list(req_options, OPTION_HOSTNAME) &&
2590: !option_find2(OPTION_HOSTNAME))
2591: option_put_string(mess, end, OPTION_HOSTNAME, hostname, null_term);
2592:
2593: if (fqdn_flags != 0)
2594: {
2595: len = strlen(hostname) + 3;
2596:
2597: if (fqdn_flags & 0x04)
2598: len += 2;
2599: else if (null_term)
2600: len++;
2601:
2602: if (domain)
2603: len += strlen(domain) + 1;
1.1.1.2 misho 2604: else if (fqdn_flags & 0x04)
2605: len--;
2606:
1.1 misho 2607: if ((p = free_space(mess, end, OPTION_CLIENT_FQDN, len)))
2608: {
2609: *(p++) = fqdn_flags & 0x0f; /* MBZ bits to zero */
2610: *(p++) = 255;
2611: *(p++) = 255;
2612:
2613: if (fqdn_flags & 0x04)
2614: {
1.1.1.4 misho 2615: p = do_rfc1035_name(p, hostname, NULL);
1.1 misho 2616: if (domain)
1.1.1.2 misho 2617: {
1.1.1.4 misho 2618: p = do_rfc1035_name(p, domain, NULL);
1.1.1.2 misho 2619: *p++ = 0;
2620: }
1.1 misho 2621: }
2622: else
2623: {
2624: memcpy(p, hostname, strlen(hostname));
2625: p += strlen(hostname);
2626: if (domain)
2627: {
2628: *(p++) = '.';
2629: memcpy(p, domain, strlen(domain));
2630: p += strlen(domain);
2631: }
2632: if (null_term)
2633: *(p++) = 0;
2634: }
2635: }
2636: }
2637: }
2638:
2639: for (opt = config_opts; opt; opt = opt->next)
2640: {
2641: int optno = opt->opt;
2642:
2643: /* netids match and not encapsulated? */
2644: if (!(opt->flags & DHOPT_TAGOK))
2645: continue;
2646:
2647: /* was it asked for, or are we sending it anyway? */
2648: if (!(opt->flags & DHOPT_FORCE) && !in_list(req_options, optno))
2649: continue;
2650:
1.1.1.3 misho 2651: /* prohibit some used-internally options. T1 and T2 already handled. */
1.1 misho 2652: if (optno == OPTION_CLIENT_FQDN ||
2653: optno == OPTION_MAXMESSAGE ||
2654: optno == OPTION_OVERLOAD ||
2655: optno == OPTION_PAD ||
1.1.1.3 misho 2656: optno == OPTION_END ||
2657: optno == OPTION_T1 ||
2658: optno == OPTION_T2)
1.1 misho 2659: continue;
2660:
2661: if (optno == OPTION_SNAME && done_server)
2662: continue;
2663:
2664: if (optno == OPTION_FILENAME && done_file)
2665: continue;
2666:
2667: /* For the options we have default values on
2668: dhc-option=<optionno> means "don't include this option"
2669: not "include a zero-length option" */
2670: if (opt->len == 0 &&
2671: (optno == OPTION_NETMASK ||
2672: optno == OPTION_BROADCAST ||
2673: optno == OPTION_ROUTER ||
2674: optno == OPTION_DNSSERVER ||
2675: optno == OPTION_DOMAINNAME ||
2676: optno == OPTION_HOSTNAME))
2677: continue;
2678:
2679: /* vendor-class comes from elsewhere for PXE */
2680: if (pxe_arch != -1 && optno == OPTION_VENDOR_ID)
2681: continue;
2682:
2683: /* always force null-term for filename and servername - buggy PXE again. */
2684: len = do_opt(opt, NULL, context,
2685: (optno == OPTION_SNAME || optno == OPTION_FILENAME) ? 1 : null_term);
2686:
2687: if ((p = free_space(mess, end, optno, len)))
2688: {
2689: do_opt(opt, p, context,
2690: (optno == OPTION_SNAME || optno == OPTION_FILENAME) ? 1 : null_term);
2691:
2692: /* If we send a vendor-id, revisit which vendor-ops we consider
2693: it appropriate to send. */
2694: if (optno == OPTION_VENDOR_ID)
2695: {
2696: match_vendor_opts(p - 2, config_opts);
2697: done_vendor_class = 1;
2698: }
2699: }
2700: }
2701:
2702: /* Now send options to be encapsulated in arbitrary options,
2703: eg dhcp-option=encap:172,17,.......
2704: Also handle vendor-identifying vendor-encapsulated options,
2705: dhcp-option = vi-encap:13,17,.......
2706: The may be more that one "outer" to do, so group
2707: all the options which match each outer in turn. */
2708: for (opt = config_opts; opt; opt = opt->next)
2709: opt->flags &= ~DHOPT_ENCAP_DONE;
2710:
2711: for (opt = config_opts; opt; opt = opt->next)
2712: {
2713: int flags;
2714:
2715: if ((flags = (opt->flags & (DHOPT_ENCAPSULATE | DHOPT_RFC3925))))
2716: {
2717: int found = 0;
2718: struct dhcp_opt *o;
2719:
2720: if (opt->flags & DHOPT_ENCAP_DONE)
2721: continue;
2722:
2723: for (len = 0, o = config_opts; o; o = o->next)
2724: {
2725: int outer = flags & DHOPT_ENCAPSULATE ? o->u.encap : OPTION_VENDOR_IDENT_OPT;
2726:
2727: o->flags &= ~DHOPT_ENCAP_MATCH;
2728:
2729: if (!(o->flags & flags) || opt->u.encap != o->u.encap)
2730: continue;
2731:
2732: o->flags |= DHOPT_ENCAP_DONE;
2733: if (match_netid(o->netid, tagif, 1) &&
2734: ((o->flags & DHOPT_FORCE) || in_list(req_options, outer)))
2735: {
2736: o->flags |= DHOPT_ENCAP_MATCH;
2737: found = 1;
2738: len += do_opt(o, NULL, NULL, 0) + 2;
2739: }
2740: }
2741:
2742: if (found)
2743: {
2744: if (flags & DHOPT_ENCAPSULATE)
2745: do_encap_opts(config_opts, opt->u.encap, DHOPT_ENCAP_MATCH, mess, end, null_term);
2746: else if (len > 250)
2747: my_syslog(MS_DHCP | LOG_WARNING, _("cannot send RFC3925 option: too many options for enterprise number %d"), opt->u.encap);
2748: else if ((p = free_space(mess, end, OPTION_VENDOR_IDENT_OPT, len + 5)))
2749: {
2750: int swap_ent = htonl(opt->u.encap);
2751: memcpy(p, &swap_ent, 4);
2752: p += 4;
2753: *(p++) = len;
2754: for (o = config_opts; o; o = o->next)
2755: if (o->flags & DHOPT_ENCAP_MATCH)
2756: {
2757: len = do_opt(o, p + 2, NULL, 0);
2758: *(p++) = o->opt;
2759: *(p++) = len;
2760: p += len;
2761: }
2762: }
2763: }
2764: }
2765: }
2766:
2767: force_encap = prune_vendor_opts(tagif);
2768:
2769: if (context && pxe_arch != -1)
2770: {
1.1.1.4 misho 2771: pxe_misc(mess, end, uuid, pxevendor);
1.1.1.3 misho 2772: if (!pxe_uefi_workaround(pxe_arch, tagif, mess, context->local, now, 0))
2773: config_opts = pxe_opts(pxe_arch, tagif, context->local, now);
1.1 misho 2774: }
2775:
2776: if ((force_encap || in_list(req_options, OPTION_VENDOR_CLASS_OPT)) &&
2777: do_encap_opts(config_opts, OPTION_VENDOR_CLASS_OPT, DHOPT_VENDOR_MATCH, mess, end, null_term) &&
2778: pxe_arch == -1 && !done_vendor_class && vendor_class_len != 0 &&
2779: (p = free_space(mess, end, OPTION_VENDOR_ID, vendor_class_len)))
2780: /* If we send vendor encapsulated options, and haven't already sent option 60,
2781: echo back the value we got from the client. */
2782: memcpy(p, daemon->dhcp_buff3, vendor_class_len);
2783:
2784: /* restore BOOTP anti-overload hack */
2785: if (!req_options || option_bool(OPT_NO_OVERRIDE))
2786: {
2787: mess->file[0] = f0;
2788: mess->sname[0] = s0;
2789: }
2790: }
2791:
1.1.1.4 misho 2792: static void apply_delay(u32 xid, time_t recvtime, struct dhcp_netid *netid)
2793: {
2794: struct delay_config *delay_conf;
2795:
2796: /* Decide which delay_config option we're using */
2797: for (delay_conf = daemon->delay_conf; delay_conf; delay_conf = delay_conf->next)
2798: if (match_netid(delay_conf->netid, netid, 0))
2799: break;
2800:
2801: if (!delay_conf)
2802: /* No match, look for one without a netid */
2803: for (delay_conf = daemon->delay_conf; delay_conf; delay_conf = delay_conf->next)
2804: if (match_netid(delay_conf->netid, netid, 1))
2805: break;
2806:
2807: if (delay_conf)
2808: {
2809: if (!option_bool(OPT_QUIET_DHCP))
2810: my_syslog(MS_DHCP | LOG_INFO, _("%u reply delay: %d"), ntohl(xid), delay_conf->delay);
2811: delay_dhcp(recvtime, delay_conf->delay, -1, 0, 0);
2812: }
2813: }
2814:
1.1.1.5 ! misho 2815: #endif /* HAVE_DHCP */
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