xref: /titanic_44/usr/src/cmd/cmd-inet/usr.lib/in.mpathd/mpd_tables.h (revision 6dfee4834394825da35b977ca71cdc965bc7b6a4)
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, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2004 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef	_MPD_TABLES_H
28 #define	_MPD_TABLES_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 /*
37  * Terminology:
38  *
39  * phyint: A NIC eg. hme0. This is represented as 'struct phyint'
40  *
41  * phyint instance: A protocol instance of a phyint. Eg. the IPv4 instance of
42  * 	hme0 or the IPv6 instance of hme0. (struct phyint_instance)
43  *
44  * logint: A logical interface eg. hme0:1 (struct logint)
45  *
46  * phyint_group: A group of phyints i.e. physical interfaces that are
47  *	(i) connected to the same level 2 topology e.g. the same ethernet
48  *	    switch AND
49  *	(ii) share the same phyint group name.
50  * Load spreading and failover occur across members of the same phyint group.
51  * phyint group members must be homogenous. i.e. if a phyint belonging to a
52  * phyint group has a IPv6 protocol instance, then all members of the phyint
53  * group, must have IPv6 protocol instances. (struct phyint_group)
54  */
55 
56 /*
57  * Parameter passed to try_failover(), indicating the type of failover
58  * that is requested.
59  */
60 #define	FAILOVER_NORMAL		1	/* Failover to another phyint */
61 					/* that is preferably a standby */
62 #define	FAILOVER_TO_NONSTANDBY	2	/* Failover to non-standby phyint */
63 #define	FAILOVER_TO_ANY		3	/* Failover to any available phyint */
64 
65 #define	MAXDEFERREDRTT		1	/* Maximum number of deferred rtts */
66 
67 /*
68  * Status of the phyint, expressed by the return code of failure_state()
69  */
70 #define	PHYINT_OK	0		/* No failure detected */
71 #define	PHYINT_FAILURE	1		/* NIC failure detected */
72 #define	GROUP_FAILURE	2		/* All NICs have failed */
73 
74 /*
75  * Return values of phyint_inst_update_from_k()
76  */
77 #define	PI_OK			1	/* Phyint matches in the kernel */
78 #define	PI_DELETED		2	/* Phyint has vanished in the kernel */
79 #define	PI_IFINDEX_CHANGED	3	/* Phyint's ifindex has changed */
80 #define	PI_IOCTL_ERROR		4	/* Some ioctl error */
81 #define	PI_GROUP_CHANGED	5	/* The phyint has changed group. */
82 
83 /*
84  * Though IFF_POINTOPOINT is a logint property, for the purpose of
85  * failover, we treat it as a phyint property. Note that we cannot failover
86  * individual logints.
87  */
88 #define	PHYINT_FLAGS(flags)	\
89 	(((flags) &  (IFF_STANDBY | IFF_INACTIVE | IFF_FAILED | IFF_OFFLINE | \
90 	IFF_POINTOPOINT | IFF_RUNNING)) | (handle_link_notifications ? \
91 	0 : IFF_RUNNING))
92 
93 /* A Phyint can have up to 2 instances, the IPv4 and the IPv6 instance */
94 #define	PHYINT_INSTANCE(pi, af)	\
95 	((af) == AF_INET ? (pi)->pi_v4 : (pi)->pi_v6)
96 
97 /*
98  * A phyint instance is probe *enabled* if it has been configured with a probe
99  * address (i.e., an IFF_NOFAILOVER address).  It is probe *capable* if it is
100  * also able to send probes (i.e., has one or more targets available).
101  */
102 #define	PROBE_ENABLED(pii) \
103 	(((pii) != NULL) && ((pii)->pii_probe_logint != NULL))
104 
105 #define	PROBE_CAPABLE(pii) \
106 	(PROBE_ENABLED(pii) && ((pii)->pii_ntargets != 0))
107 
108 /* Subtract b from a modulo n. i.e. (a - b) mod n  */
109 #define	MOD_SUB(a, b, n)	\
110 	((((a) + (n)) - (b)) % (n))
111 
112 /* Increment modulo n */
113 #define	MOD_INCR(a, n)		\
114 	(((a) + 1) % (n))
115 
116 /* Decrement modulo n */
117 #define	MOD_DCR(a, n)		\
118 	MOD_SUB(a, 1, n)
119 
120 /*
121  * 'index' represents an index into the circular probe stats array of
122  * size PROBE_STATS_COUNT.  0 <= index < PROBE_STATS_COUNT. This is used
123  * to access members of the pii_probes[] array defined in the phyint_instance
124  * structure.
125  */
126 #define	PROBE_INDEX_PREV(index)	\
127 	MOD_DCR(index, PROBE_STATS_COUNT)
128 
129 #define	PROBE_INDEX_NEXT(index)	\
130 	MOD_INCR(index, PROBE_STATS_COUNT)
131 
132 
133 /*
134  * If we receive more than LINK_UP_PERMIN "link up" notifications in a minute,
135  * then don't actually perform the repair operation until we've dropped back
136  * below the threshold (or we have a probe address and our probes indicate
137  * that the link is functioning again).  This is to prevent link flapping in
138  * the case where we don't have a probe address.
139  */
140 #define	LINK_UP_PERMIN	2
141 
142 #define	LINK_DOWN(pi) ((pi)->pi_link_state == 0)
143 #define	LINK_UP(pi) (!LINK_DOWN(pi))
144 #define	FLAGS_TO_LINK_STATE(pi) (((pi)->pi_flags & IFF_RUNNING) != 0)
145 #define	UPDATE_LINK_STATE(pi) ((pi)->pi_link_state = \
146 	FLAGS_TO_LINK_STATE(pi) ? 1 : 0)
147 #define	INIT_LINK_STATE(pi) ((pi)->pi_link_state = 1)
148 
149 #define	SINGLETON_GROUP(pi)	((pi) != NULL && \
150 	(pi)->pi_group->pg_name[0] != '\0' && \
151 	(pi)->pi_group->pg_phyint == (pi) && (pi)->pi_pgnext == NULL)
152 
153 /*
154  * Phyint group states; see below for the phyint group definition.
155  */
156 enum pg_state {
157 	PG_RUNNING	= 1,	/* at least one interface in group is working */
158 	PG_FAILED	= 2	/* group has failed completely */
159 };
160 
161 /*
162  * Convenience macro to check if the whole group has failed.
163  */
164 #define	GROUP_FAILED(pg)	((pg)->pg_groupfailed)
165 
166 /*
167  * A doubly linked list of all phyint groups in the system.
168  * A phyint group is identified by its group name.
169  */
170 struct phyint_group {
171 	char pg_name[LIFNAMSIZ + 1];	/* Phyint group name */
172 	struct phyint *pg_phyint;	/* List of phyints in this group */
173 	struct phyint_group *pg_next;	/* Next phyint group */
174 	struct phyint_group *pg_prev;	/* Prev phyint group */
175 	uint64_t pg_sig;		/* Current signature of this group */
176 	int	pg_probeint;		/* Interval between probes */
177 	int	pg_fdt;			/* Time needed to detect failure */
178 	uint_t
179 		pg_groupfailed : 1; /* The whole group has failed */
180 };
181 
182 /*
183  * Phyint states; see below for the phyint definition.
184  */
185 enum pi_state {
186 	PI_NOTARGETS	= 1,	/* Phyint has no targets */
187 	PI_RUNNING	= 2,	/* Phyint is functioning */
188 	PI_FAILED	= 3,	/* Phyint is failed */
189 	PI_OFFLINE	= 4	/* Phyint is offline */
190 };
191 
192 /*
193  * Representation of a NIC or a phyint. There is a list of all known phyints.
194  * There is also a list of phyints belonging to a phyint group, one list
195  * per phyint group.
196  */
197 struct phyint {
198 	char	pi_name[LIFNAMSIZ + 1]; /* Phyint name eg. le0 */
199 	struct phyint_instance *pi_v4;	/* The IPv4 instance */
200 	struct phyint_instance *pi_v6;	/* The IPv6 instance */
201 	struct phyint_group *pi_group;	/* Pointer to the group */
202 	struct phyint	*pi_next;	/* List of all phyints */
203 	struct phyint	*pi_prev;	/* List of all phyints */
204 	struct phyint	*pi_pgnext;	/* List of phyints in this group */
205 	struct phyint	*pi_pgprev;	/* List of phyints in this group */
206 	uint_t		pi_ifindex;	/* interface index */
207 	enum pi_state	pi_state;	/* State of the phyint */
208 	uint64_t	pi_flags;	/* Phyint flags from kernel */
209 	uint16_t	pi_icmpid;	/* icmp id in icmp echo request */
210 	/*
211 	 * The pi_whenup array is a circular buffer of the most recent
212 	 * times (in milliseconds since some arbitrary point of time in
213 	 * the past) that the interface was brought up; pi_whendx identifies
214 	 * the oldest element of the array.
215 	 */
216 	uint_t		pi_whenup[LINK_UP_PERMIN];
217 	unsigned int	pi_whendx;
218 
219 	uint_t
220 		pi_empty : 1,		/* failover done, empty */
221 		pi_full  : 1,		/* failback done, full  */
222 					/* More details in probe.c */
223 		pi_taddrmsg_printed : 1,	/* testaddr msg printed */
224 		pi_cfgmsg_printed : 1,	/* bad config msg printed */
225 		pi_lfmsg_printed : 1,   /* link-flapping msg printed */
226 		pi_link_state : 1;	/* interface link state */
227 };
228 
229 /*
230  * A doubly linked list of all phyint_instances each of which contains a
231  * doubly linked list of logical interfaces and targets. For eg. if both
232  * IPv4 and IPv6 are used over hme0, we have 2 phyint instances, 1 for each
233  * protocol.
234  */
235 struct phyint_instance {
236 	struct phyint_instance	*pii_next;	/* List of all phyint insts */
237 	struct phyint_instance	*pii_prev;	/* List of all phyint insts */
238 
239 	struct phyint	*pii_phyint;	/* Back pointer to the phyint */
240 	struct target	*pii_targets;	/* List of targets on this link */
241 	struct logint	*pii_probe_logint; /* IFF_NOFAILOVER addr for probing */
242 	struct logint	*pii_logint;	/* Doubly linked list of logical ifs */
243 
244 	int	pii_probe_sock;		/* Socket for ICMP Probe packets */
245 	int	pii_af;			/* Address family */
246 	uint16_t pii_rack;		/* highest acknowledged seq number */
247 	uint16_t pii_snxt;		/* sequence number of next probe */
248 	uint_t	pii_snxt_time;		/* actual next probe time that */
249 					/* includes some randomness */
250 
251 	uint_t	pii_snxt_basetime; 	/* strictly periodic base probe time */
252 					/* for all periodic probes */
253 	uint_t	pii_fd_snxt_basetime; 	/* strictly periodic base probe time */
254 					/* for failure detection probes */
255 
256 	hrtime_t 	pii_fd_hrtime;	/* hrtime_t before which we should */
257 					/* not send probes out this pii */
258 
259 	uint64_t	pii_flags;	/* Phyint flags from kernel */
260 
261 	struct probe_stats {
262 		struct target *pr_target;	/* Probe Target */
263 		uint_t	pr_time_sent; 	/* Time probe was sent */
264 		uint_t	pr_status;	/* probe status as below */
265 #define	PR_UNUSED	0		/* Probe slot unused */
266 #define	PR_UNACKED	1		/* Probe is unacknowledged */
267 #define	PR_ACKED	2		/* Probe has been acknowledged */
268 #define	PR_LOST		3		/* Probe is declared lost */
269 		union {
270 			uint_t  tl;	/* time probe is declared lost */
271 			uint_t	ta;	/* time probe is acked */
272 		} prt;
273 #define	pr_time_lost	prt.tl
274 #define	pr_time_acked	prt.ta
275 	} pii_probes[PROBE_STATS_COUNT];
276 
277 	uint_t
278 		pii_in_use : 1,			/* To detect removed phyints */
279 		pii_basetime_inited : 1,	/* probe time initialized */
280 		pii_targets_are_routers : 1;	/* routers or hosts ? */
281 
282 	uint_t	pii_probe_next;		/* next index to use in pii_probes[] */
283 	struct target *pii_target_next;	/* next target for probing */
284 	struct target *pii_rtt_target_next;
285 					/* next target for rtt probes */
286 
287 	int	pii_ntargets;		/* Number of active targets */
288 	struct stats {			/* Cumulative statistics */
289 		uint64_t	lost;		/* Number of probes lost */
290 		uint64_t	acked;		/* Number of probes acked */
291 		uint64_t	sent;		/* Number of probes sent */
292 		uint64_t	unknown;	/* Number of ambiguous */
293 						/* probe acks */
294 	} pii_cum_stats;
295 };
296 
297 #define	pii_name	pii_phyint->pi_name
298 #define	pii_ifindex	pii_phyint->pi_ifindex
299 #define	pii_state	pii_phyint->pi_state
300 #define	pii_icmpid	pii_phyint->pi_icmpid
301 
302 #define	PR_STATUS_VALID(status)		((status) <= PR_LOST)
303 
304 
305 /*
306  * A doubly linked list of prefixes or logicals, hanging off the
307  * phyint instance.
308  */
309 struct logint {
310 	struct logint	*li_next;	/* Next logint of this phyint inst. */
311 	struct logint	*li_prev;	/* Prev logint of this phyint inst. */
312 	struct phyint_instance	*li_phyint_inst;
313 					/* Back pointer to phyint inst. */
314 
315 	char		li_name[LIFNAMSIZ + 1];	/* name Eg. hme0:1 */
316 	struct in6_addr	li_addr;	/* IP address */
317 	struct in6_addr	li_dstaddr;	/* Dst IP address for pointopoint */
318 	struct in6_addr	li_subnet;	/* prefix / subnet */
319 	uint_t		li_subnet_len;	/* prefix / subnet length */
320 	uint64_t	li_flags;	/* IFF_* flags */
321 	uint_t		li_oifindex;	/* original ifindex (SIOCGLIFOINDEX) */
322 	uint_t
323 			li_in_use : 1,	/* flag to detect deleted logints */
324 			li_dupaddr : 1,	/* This test address is not unique */
325 			li_dupaddrmsg_printed : 1;
326 					/* Error has been logged to console */
327 };
328 
329 
330 /*
331  * Doubly-linked list of probe targets on a phyint instance. Probe targets are
332  * usually onlink routers. If no onlink routers can be found, onlink hosts
333  * are used.
334  */
335 struct target {
336 	struct target	*tg_next;	/* Next target for this phyint inst. */
337 	struct target	*tg_prev;	/* Prev target for this phyint inst. */
338 	struct phyint_instance	*tg_phyint_inst;
339 					/* Back pointer to phyint instance */
340 
341 	struct in6_addr	tg_address;	/* Target IP address */
342 	int		tg_status;	/* Status of the target below */
343 #define	TG_ACTIVE	1		/* active probe target */
344 #define	TG_UNUSED	2		/* target not in use now */
345 #define	TG_SLOW		3		/* rtt is high - Not in use now */
346 #define	TG_DEAD		4		/* Target is not responding */
347 
348 	hrtime_t	tg_latime;	/* Target's last active time */
349 	int		tg_rtt_sa;	/* Scaled round trip time(RTT) avg. */
350 	int		tg_rtt_sd;	/* Scaled RTT deviation */
351 	int		tg_crtt;	/* Conservative RTT = A + 4D */
352 	uint32_t
353 			tg_in_use : 1;	/* In use flag */
354 	int		tg_deferred[MAXDEFERREDRTT + 1];
355 					/* Deferred rtt data points */
356 	int		tg_num_deferred;
357 					/* Number of deferred rtt data points */
358 };
359 
360 #define	TG_STATUS_VALID(status) \
361 	(((status) >= TG_ACTIVE) && ((status) <= TG_DEAD))
362 
363 /*
364  * Statistics about consecutive probe failures are passed around between
365  * functions in this structure.
366  */
367 struct probe_fail_count
368 {
369 	uint_t	pf_tff;		/* Earliest time of failure in a series */
370 	int	pf_nfail;	/* Number of consecutive probe failures */
371 	int	pf_nfail_tg;	/* Number of consecutive probe fails for */
372 				/* some given target 'tg' */
373 };
374 
375 /*
376  * Statistics about consecutive probe successes is passed around between
377  * functions in this structure.
378  */
379 struct probe_success_count
380 {
381 	uint_t ps_tls;		/* Most recent time of probe success */
382 	boolean_t ps_tls_valid;	/* is ps_tls valid */
383 	int	ps_nsucc;	/* Number of consecutive probe successes */
384 				/* starting from the most recent */
385 	int	ps_nsucc_tg;	/* Number of consecutive probe successes */
386 				/* for some given target 'tg' */
387 };
388 
389 /*
390  * Statistics about missed probes that were never sent.
391  * Happens due to scheduling delay.
392  */
393 
394 struct probes_missed
395 {
396 	uint_t	pm_nprobes;	/* Cumulative number of missed probes */
397 	uint_t	pm_ntimes;	/* Total number of occassions */
398 };
399 
400 /*
401  * Globals
402  */
403 extern struct phyint *phyints;		/* List of all phyints */
404 extern struct phyint_group *phyint_groups; /* List of all phyint groups */
405 extern struct phyint_group *phyint_anongroup; /* Pointer to the anon group */
406 extern struct phyint_instance *phyint_instances;
407 					/* List of all phyint instances */
408 extern struct probes_missed probes_missed;
409 					/* statistics about missed probes */
410 
411 /*
412  * Function prototypes
413  */
414 extern int phyint_init(void);
415 extern struct phyint *phyint_lookup(const char *name);
416 extern struct phyint_instance *phyint_inst_lookup(int af, char *name);
417 extern struct phyint_instance *phyint_inst_init_from_k(int af, char *name);
418 extern struct phyint_instance *phyint_inst_other(struct phyint_instance *pii);
419 extern int phyint_inst_update_from_k(struct phyint_instance *pii);
420 extern void phyint_inst_delete(struct phyint_instance *pii);
421 extern uint_t phyint_inst_timer(struct phyint_instance *pii);
422 extern boolean_t phyint_inst_sockinit(struct phyint_instance *pii);
423 
424 extern void phyint_newtype(struct phyint *pi);
425 extern void phyint_chstate(struct phyint *pi, enum pi_state state);
426 extern void phyint_group_chstate(struct phyint_group *pg, enum pg_state state);
427 extern void phyint_check_for_repair(struct phyint *pi);
428 
429 extern void logint_init_from_k(struct phyint_instance *pii, char *li_name);
430 extern void logint_delete(struct logint *li);
431 
432 extern struct target *target_lookup(struct phyint_instance *pii,
433     struct in6_addr addr);
434 extern void target_create(struct phyint_instance *pii,
435     struct in6_addr addr, boolean_t is_router);
436 extern void target_delete(struct target *tg);
437 extern struct target *target_next(struct target *tg);
438 extern void target_add(struct phyint_instance *pii, struct in6_addr addr,
439     boolean_t is_router);
440 
441 extern void in_data(struct phyint_instance *pii);
442 extern void in6_data(struct phyint_instance *pii);
443 
444 extern int try_failover(struct phyint *pi, int failover_type);
445 extern int try_failback(struct phyint *pi, boolean_t check_only);
446 extern int do_failback(struct phyint *pi, boolean_t check_only);
447 extern boolean_t change_lif_flags(struct phyint *pi, uint64_t flags,
448     boolean_t setfl);
449 
450 extern void logperror_pii(struct phyint_instance *pii, char *str);
451 extern void logperror_li(struct logint *li, char *str);
452 extern char *pr_addr(int af, struct in6_addr addr, char *abuf, int len);
453 extern void phyint_inst_print_all(void);
454 
455 extern int logint_upcount(struct phyint *pi);
456 extern void restore_phyint(struct phyint *pi);
457 extern void reset_crtt_all(struct phyint *pi);
458 extern int failure_state(struct phyint_instance *pii);
459 extern void process_link_state_changes(void);
460 extern void clear_pii_probe_stats(struct phyint_instance *pii);
461 extern void start_timer(struct phyint_instance *pii);
462 
463 extern boolean_t own_address(int af, struct in6_addr addr);
464 
465 extern void close_probe_socket(struct phyint_instance *pii, boolean_t flag);
466 
467 extern unsigned int getifinfo(const char *, ipmp_ifinfo_t **);
468 extern unsigned int getgroupinfo(const char *, ipmp_groupinfo_t **);
469 extern unsigned int getgrouplist(ipmp_grouplist_t **);
470 extern unsigned int getsnap(ipmp_snap_t **);
471 
472 #ifdef	__cplusplus
473 }
474 #endif
475 
476 #endif	/* _MPD_TABLES_H */
477