xref: /titanic_51/usr/src/cmd/cmd-inet/sbin/dhcpagent/interface.h (revision 32232bf4531ddb458488ba01c9df68685921ebf4)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	INTERFACE_H
27 #define	INTERFACE_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 /*
32  * interface.[ch] encapsulate all of the agent's knowledge of network
33  * interfaces from the DHCP agent's perspective.  see interface.c
34  * for documentation on how to use the exported functions.  note that
35  * there are not functional interfaces for manipulating all of the fields
36  * in an ifslist -- please read the comments in the ifslist structure
37  * definition below for the rules on accessing various fields.
38  */
39 
40 #ifdef	__cplusplus
41 extern "C" {
42 #endif
43 
44 #include <netinet/in.h>
45 #include <sys/socket.h>
46 #include <net/if.h>			/* IFNAMSIZ */
47 #include <sys/types.h>
48 #include <netinet/dhcp.h>
49 #include <dhcpagent_ipc.h>
50 #include <libinetutil.h>
51 
52 #include "async.h"
53 #include "agent.h"
54 #include "dlpi_io.h"
55 #include "ipc_action.h"
56 #include "packet.h"
57 #include "util.h"
58 
59 enum { DHCP_T1_TIMER, DHCP_T2_TIMER, DHCP_LEASE_TIMER };
60 
61 typedef int script_callback_t (struct ifslist *, const char *);
62 
63 struct ifslist {
64 
65 	/*
66 	 * ifslist chain pointers, maintained by insert_ifs() /
67 	 * remove_ifs().
68 	 */
69 
70 	struct ifslist		*next;
71 	struct ifslist		*prev;
72 
73 	/*
74 	 * hold count on this ifslist, maintained by hold_ifs() /
75 	 * release_ifs() -- see below for a discussion of ifs memory
76 	 * management.
77 	 */
78 
79 	uchar_t			if_hold_count;
80 
81 	/*
82 	 * each interface can have at most one pending asynchronous
83 	 * action, which is represented in a `struct async_action'.
84 	 * if that asynchronous action was a result of a user request,
85 	 * then the `struct ipc_action' is used to hold information
86 	 * about the user request.  these structures are opaque to
87 	 * users of the ifslist, and the functional interfaces
88 	 * provided in async.[ch] and ipc_action.[ch] should be used
89 	 * to maintain them.
90 	 */
91 
92 	struct ipc_action	if_ia;
93 	struct async_action	if_async;
94 
95 	/*
96 	 * current state of the interface
97 	 */
98 
99 	DHCPSTATE		if_state;
100 
101 	/*
102 	 * flags specific to DHCP (see dhcpagent_ipc.h)
103 	 */
104 
105 	uint16_t		if_dflags;
106 
107 	/*
108 	 * general interface information -- this information is initialized
109 	 * in insert_ifs() and does not change over the lifetime of the
110 	 * interface.
111 	 */
112 
113 	char		if_name[IFNAMSIZ];
114 
115 	uint32_t	if_index;	/* interface index */
116 
117 	uint16_t	if_max;		/* largest DHCP packet on this if */
118 	uint16_t	if_min;		/* minimum mtu size on this if */
119 	uint16_t	if_opt;		/* amount of space for options in PKT */
120 
121 	uchar_t		*if_hwaddr;	/* our link-layer address */
122 	uchar_t		if_hwlen;	/* our link-layer address len */
123 	uchar_t		if_hwtype;	/* type of link-layer */
124 
125 	uchar_t		*if_cid;	/* client id, if set in defaults file */
126 	uchar_t		if_cidlen;	/* client id len */
127 
128 	uchar_t		*if_prl;	/* if non-NULL, param request list */
129 	uchar_t		if_prllen;	/* param request list len */
130 
131 		/*
132 		 * the destination address is the broadcast address of
133 		 * the interface, in DLPI terms (which means it
134 		 * includes both a link-layer broadcast address and a
135 		 * sap, and the order isn't consistent.)  fun, huh?
136 		 * blame AT&T.  we store it as a token like this
137 		 * because it's generally how we need to use it.  we
138 		 * can pull it apart using the saplen and sap_before
139 		 * fields below.
140 		 */
141 
142 	uchar_t		*if_daddr;	/* our destination address */
143 	uchar_t		if_dlen;	/* our destination address len */
144 
145 	uchar_t		if_saplen;	/* the SAP len */
146 	uchar_t		if_sap_before;	/* does SAP come before address? */
147 
148 		/*
149 		 * network descriptors; one is used for the DLPI
150 		 * traffic before we have our IP address configured;
151 		 * the other two are used afterwards.  there have to
152 		 * be two socket descriptors since:
153 		 *
154 		 * o  we need one to be bound to IPPORT_BOOTPC and
155 		 *    and INADDR_BROADCAST, so it can receive all
156 		 *    broadcast traffic.  this is if_sock_fd.  it
157 		 *    is also used as a general descriptor to perform
158 		 *    socket-related ioctls on, like SIOCGIFFLAGS.
159 		 *
160 		 * o  we need another to be bound to IPPORT_BOOTPC and
161 		 *    the IP address given to us by the DHCP server,
162 		 *    so we can guarantee the IP address of outgoing
163 		 *    packets when multihomed. (the problem being that
164 		 *    if a packet goes out with the wrong IP address,
165 		 *    then the server's response will come back on the
166 		 *    wrong interface).  this is if_sock_ip_fd.
167 		 *
168 		 * note that if_sock_fd is created in init_ifs() but
169 		 * not bound until dhcp_bound(); this is because we
170 		 * cannot even bind to the broadcast address until we
171 		 * have an IP address.
172 		 *
173 		 * if_sock_ip_fd isn't created until dhcp_bound(),
174 		 * since we don't need it until then and we can't
175 		 * bind it until after we have an IP address anyway.
176 		 *
177 		 * both socket descriptors are closed in reset_ifs().
178 		 */
179 
180 	int		if_dlpi_fd;
181 	int		if_sock_fd;
182 	int		if_sock_ip_fd;
183 
184 	/*
185 	 * the following fields are set when a lease is acquired, and
186 	 * may be updated over the lifetime of the lease.  they are
187 	 * all reset by reset_ifs().
188 	 */
189 
190 	iu_timer_id_t	if_timer[3];	/* T1, T2, and LEASE timers */
191 
192 	lease_t		if_t1;		/* relative renewal start time, hbo */
193 	lease_t		if_t2;		/* relative rebinding start time, hbo */
194 	lease_t		if_lease;	/* relative expire time, hbo */
195 
196 	unsigned int	if_nrouters;	/* the number of default routers */
197 	struct in_addr	*if_routers;	/* an array of default routers */
198 	struct in_addr	if_server;	/* our DHCP server, nbo */
199 
200 	/*
201 	 * while in any states except ADOPTING, INIT, INFORMATION and
202 	 * INFORM_SENT, the following three fields are equal to what
203 	 * we believe the current address, netmask, and broadcast
204 	 * address on the interface to be.  this is so we can detect
205 	 * if the user changes them and abandon the interface.
206 	 */
207 
208 	struct in_addr	if_addr;	/* our IP address, nbo */
209 	struct in_addr	if_netmask;	/* our netmask, nbo */
210 	struct in_addr	if_broadcast;	/* our broadcast address, nbo */
211 
212 	PKT_LIST	*if_ack;	/* ACK from the server */
213 
214 	/*
215 	 * We retain the very first ack obtained on the interface to
216 	 * provide access to options which were originally assigned by
217 	 * the server but may not have been included in subsequent
218 	 * acks, as there are servers which do this and customers have
219 	 * had unsatisfactory results when using our agent with them.
220 	 * ipc_event() in agent.c provides a fallback to the original
221 	 * ack when the current ack doesn't have the information
222 	 * requested.
223 	 */
224 
225 	PKT_LIST	*if_orig_ack;
226 
227 	/*
228 	 * other miscellaneous variables set or needed in the process
229 	 * of acquiring a lease.
230 	 */
231 
232 	int		if_offer_wait;	/* seconds between sending offers */
233 	iu_timer_id_t	if_offer_timer;	/* timer associated with offer wait */
234 	iu_event_id_t	if_offer_id;	/* event offer id */
235 	iu_event_id_t	if_acknak_id;	/* event acknak id */
236 	iu_event_id_t	if_acknak_bcast_id;
237 
238 		/*
239 		 * `if_neg_monosec' represents the time since lease
240 		 * acquisition or renewal began, and is used for
241 		 * computing the pkt->secs field.  `if_newstart_monosec'
242 		 * represents the time the ACKed REQUEST was sent,
243 		 * which represents the start time of a new lease.
244 		 * when the lease actually begins (and thus becomes
245 		 * current), `if_curstart_monosec' is set to
246 		 * `if_newstart_monosec'.
247 		 */
248 
249 	monosec_t		if_neg_monosec;
250 	monosec_t		if_newstart_monosec;
251 	monosec_t		if_curstart_monosec;
252 
253 		/*
254 		 * time we sent the DISCOVER relative to if_neg_monosec,
255 		 * so that the REQUEST can have the same pkt->secs.
256 		 */
257 
258 	uint16_t		if_disc_secs;
259 
260 		/*
261 		 * the host name we've been asked to request is remembered
262 		 * here between the DISCOVER and the REQUEST
263 		 */
264 	char			*if_reqhost;
265 
266 	/*
267 	 * this is a chain of packets which have been received on this
268 	 * interface over some interval of time.  the packets may have
269 	 * to meet some criteria in order to be put on this list.  in
270 	 * general, packets are put on this list through recv_pkt()
271 	 */
272 
273 	PKT_LIST		*if_recv_pkt_list;
274 
275 	/*
276 	 * these three fields are initially zero, and get incremented
277 	 * as the ifslist goes from INIT -> BOUND.  if and when the
278 	 * ifslist moves to the RENEWING state, these fields are
279 	 * reset, so they always either indicate the number of packets
280 	 * sent, received, and declined while obtaining the current
281 	 * lease (if BOUND), or the number of packets sent, received,
282 	 * and declined while attempting to obtain a future lease
283 	 * (if any other state).
284 	 */
285 
286 	uint32_t		if_sent;
287 	uint32_t		if_received;
288 	uint32_t		if_bad_offers;
289 
290 	/*
291 	 * if_send_pkt.pkt is dynamically allocated to be as big a
292 	 * packet as we can send out on this interface.  the remainder
293 	 * of this information is needed to make it easy to handle
294 	 * retransmissions.  note that other than if_bad_offers, all
295 	 * of these fields are maintained internally in send_pkt(),
296 	 * and consequently should never need to be modified by any
297 	 * other functions.
298 	 */
299 
300 	dhcp_pkt_t		if_send_pkt;
301 	uint32_t		if_send_timeout;
302 	struct sockaddr_in	if_send_dest;
303 	stop_func_t		*if_send_stop_func;
304 	uint32_t		if_packet_sent;
305 	iu_timer_id_t		if_retrans_timer;
306 
307 	int			if_script_fd;
308 	pid_t			if_script_pid;
309 	pid_t			if_script_helper_pid;
310 	const char		*if_script_event;
311 	iu_event_id_t		if_script_event_id;
312 	const char		*if_callback_msg;
313 	script_callback_t	*if_script_callback;
314 };
315 
316 /*
317  * a word on memory management and ifslists:
318  *
319  * since ifslists are often passed as context to callback functions,
320  * they cannot be freed when the interface they represent is dropped
321  * or released (or when those callbacks finally go off, they will be
322  * hosed).  to handle this situation, ifslists are reference counted.
323  * here are the rules for managing ifslists:
324  *
325  * an ifslist is created through insert_ifs().  along with
326  * initializing the ifslist, this puts a hold on the ifslist through
327  * hold_ifs().
328  *
329  * whenever an ifslist is released or dropped (implicitly or
330  * explicitly), remove_ifs() is called, which sets the DHCP_IF_REMOVED
331  * flag and removes the interface from the internal list of managed
332  * interfaces.  lastly, remove_ifs() calls release_ifs() to remove the
333  * hold acquired in insert_ifs().  if this decrements the hold count
334  * on the interface to zero, then free_ifs() is called.  if there are
335  * holds other than the hold acquired in insert_ifs(), the hold count
336  * will still be > 0, and the interface will remain allocated (though
337  * dormant).
338  *
339  * whenever a callback is scheduled against an ifslist, another hold
340  * must be put on the ifslist through hold_ifs().
341  *
342  * whenever a callback is called back against an ifslist,
343  * release_ifs() must be called to decrement the hold count, which may
344  * end up freeing the ifslist if the hold count becomes zero.
345  *
346  * if release_ifs() returns 0, then there are no remaining holds
347  * against this ifslist, and the ifslist in fact no longer exists.
348  *
349  * since some callbacks may take a long time to get called back (such
350  * as timeout callbacks for lease expiration, etc), it is sometimes
351  * more appropriate to cancel the callbacks and call release_ifs() if
352  * the cancellation succeeds.  this is done in remove_ifs() for the
353  * lease, t1, and t2 callbacks.
354  *
355  * in general, a callback should also call verify_ifs() when it gets
356  * called back in addition to release_ifs(), to make sure that the
357  * interface is still in fact under the dhcpagent's control.  to make
358  * coding simpler, there is a third function, check_ifs(), which
359  * performs both the release_ifs() and the verify_ifs().  in addition,
360  * if check_ifs() detects that the callback has the last hold against
361  * a given interface, it informs it instead of performing the final
362  * release, and thus allows it to clean up appropriately before
363  * performing the final release.
364  */
365 
366 int		canonize_ifs(struct ifslist *);
367 int		check_ifs(struct ifslist *);
368 void		hold_ifs(struct ifslist *);
369 struct ifslist *insert_ifs(const char *, boolean_t, int *);
370 struct ifslist *lookup_ifs(const char *);
371 struct ifslist *lookup_ifs_by_xid(uint32_t);
372 struct ifslist *lookup_ifs_by_uindex(uint16_t, struct ifslist *);
373 void		nuke_ifslist(boolean_t);
374 void		refresh_ifslist(iu_eh_t *, int, void *);
375 int		release_ifs(struct ifslist *);
376 void		remove_ifs(struct ifslist *);
377 void		reset_ifs(struct ifslist *);
378 int		verify_ifs(struct ifslist *);
379 unsigned int	ifs_count(void);
380 void		cancel_ifs_timers(struct ifslist *);
381 int		schedule_ifs_timer(struct ifslist *, int, uint32_t,
382 		    iu_tq_callback_t *);
383 
384 #ifdef	__cplusplus
385 }
386 #endif
387 
388 #endif	/* INTERFACE_H */
389