/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _MPD_TABLES_H #define _MPD_TABLES_H #ifdef __cplusplus extern "C" { #endif /* * Terminology: * * phyint: A NIC eg. hme0. This is represented as 'struct phyint' * * phyint instance: A protocol instance of a phyint. Eg. the IPv4 instance of * hme0 or the IPv6 instance of hme0. (struct phyint_instance) * * logint: A logical interface eg. hme0:1 (struct logint) * * phyint_group: A group of phyints i.e. physical interfaces that are * (i) connected to the same level 2 topology e.g. the same ethernet * switch AND * (ii) share the same phyint group name. * Load spreading and failover occur across members of the same phyint group. * phyint group members must be homogeneous. i.e. if a phyint belonging to a * phyint group has a IPv6 protocol instance, then all members of the phyint * group, must have IPv6 protocol instances. (struct phyint_group) */ #define MAXDEFERREDRTT 1 /* Maximum number of deferred rtts */ /* * Status of the phyint, expressed by the return code of failure_state() */ #define PHYINT_OK 0 /* No failure detected */ #define PHYINT_FAILURE 1 /* NIC failure detected */ #define GROUP_FAILURE 2 /* All NICs have failed */ /* * Return values of phyint_inst_update_from_k() */ #define PI_OK 1 /* Phyint matches in the kernel */ #define PI_DELETED 2 /* Phyint has vanished in the kernel */ #define PI_IFINDEX_CHANGED 3 /* Phyint's ifindex has changed */ #define PI_IOCTL_ERROR 4 /* Some ioctl error */ #define PI_GROUP_CHANGED 5 /* The phyint has changed group. */ #define PHYINT_FLAGS(flags) \ (((flags) & (IFF_STANDBY | IFF_INACTIVE | IFF_FAILED | IFF_OFFLINE | \ IFF_RUNNING)) | (handle_link_notifications ? 0 : IFF_RUNNING)) /* A Phyint can have up to 2 instances, the IPv4 and the IPv6 instance */ #define PHYINT_INSTANCE(pi, af) \ ((af) == AF_INET ? (pi)->pi_v4 : (pi)->pi_v6) /* * A phyint instance is probe *enabled* if it has been configured with a * unique probe address (i.e., an IFF_NOFAILOVER address). It is probe * *capable* if it is also able to send probes (i.e., has one or more * targets available). */ #define PROBE_ENABLED(pii) \ (((pii) != NULL) && ((pii)->pii_probe_sock != -1) && \ ((pii)->pii_probe_logint != NULL) && \ (((pii)->pii_probe_logint->li_dupaddr == 0))) #define PROBE_CAPABLE(pii) \ (PROBE_ENABLED(pii) && ((pii)->pii_ntargets != 0)) /* Subtract b from a modulo n. i.e. (a - b) mod n */ #define MOD_SUB(a, b, n) \ ((((a) + (n)) - (b)) % (n)) /* Increment modulo n */ #define MOD_INCR(a, n) \ (((a) + 1) % (n)) /* Decrement modulo n */ #define MOD_DCR(a, n) \ MOD_SUB(a, 1, n) /* * 'index' represents an index into the circular probe stats array of * size PROBE_STATS_COUNT. 0 <= index < PROBE_STATS_COUNT. This is used * to access members of the pii_probes[] array defined in the phyint_instance * structure. */ #define PROBE_INDEX_PREV(index) \ MOD_DCR(index, PROBE_STATS_COUNT) #define PROBE_INDEX_NEXT(index) \ MOD_INCR(index, PROBE_STATS_COUNT) /* * If we receive more than LINK_UP_PERMIN "link up" notifications in a minute, * then don't actually perform the repair operation until we've dropped back * below the threshold (or we have a probe address and our probes indicate * that the link is functioning again). This is to prevent link flapping in * the case where we don't have a probe address. */ #define LINK_UP_PERMIN 2 #define LINK_DOWN(pi) ((pi)->pi_link_state == 0) #define LINK_UP(pi) (!LINK_DOWN(pi)) #define FLAGS_TO_LINK_STATE(pi) (((pi)->pi_flags & IFF_RUNNING) != 0) #define UPDATE_LINK_STATE(pi) ((pi)->pi_link_state = \ FLAGS_TO_LINK_STATE(pi) ? 1 : 0) #define INIT_LINK_STATE(pi) ((pi)->pi_link_state = 1) /* * Phyint group states; see below for the phyint group definition. */ enum pg_state { PG_OK = 1, /* all interfaces in the group are working */ PG_DEGRADED, /* some interfaces in the group are unusable */ PG_FAILED /* all interfaces in the group are unusable */ }; /* * Convenience macro to check if the whole group has failed. */ #define GROUP_FAILED(pg) ((pg)->pg_state == PG_FAILED) /* * A doubly linked list of all phyint groups in the system. * A phyint group is identified by its group name. */ struct phyint_group { char pg_name[LIFGRNAMSIZ]; /* Phyint group name */ struct phyint *pg_phyint; /* List of phyints in this group */ struct phyint_group *pg_next; /* Next phyint group */ struct phyint_group *pg_prev; /* Prev phyint group */ uint64_t pg_sig; /* Current signature of this group */ int pg_probeint; /* Interval between probes */ int pg_fdt; /* Time needed to detect failure */ enum pg_state pg_state; /* Current group state */ boolean_t pg_in_use; /* To detect removed groups */ struct addrlist *pg_addrs; /* Data addresses in this group */ boolean_t pg_failmsg_printed; /* Group failure msg printed */ }; /* * Phyint states; see below for the phyint definition. */ enum pi_state { PI_NOTARGETS = 1, /* Phyint has no targets */ PI_RUNNING = 2, /* Phyint is functioning */ PI_FAILED = 3, /* Phyint is failed */ PI_OFFLINE = 4 /* Phyint is offline */ }; /* * Representation of a NIC or a phyint. There is a list of all known phyints. * There is also a list of phyints belonging to a phyint group, one list * per phyint group. */ struct phyint { char pi_name[LIFNAMSIZ + 1]; /* Phyint name eg. le0 */ struct phyint_instance *pi_v4; /* The IPv4 instance */ struct phyint_instance *pi_v6; /* The IPv6 instance */ struct phyint_group *pi_group; /* Pointer to the group */ struct phyint *pi_next; /* List of all phyints */ struct phyint *pi_prev; /* List of all phyints */ struct phyint *pi_pgnext; /* List of phyints in this group */ struct phyint *pi_pgprev; /* List of phyints in this group */ uint_t pi_ifindex; /* interface index */ enum pi_state pi_state; /* State of the phyint */ uint64_t pi_flags; /* Phyint flags from kernel */ uint16_t pi_icmpid; /* icmp id in icmp echo request */ uint64_t pi_taddrthresh; /* time (in secs) to delay logging */ /* about missing test addresses */ dlpi_handle_t pi_dh; /* DLPI handle to underlying link */ uint_t pi_notes; /* enabled DLPI notifications */ uchar_t pi_hwaddr[DLPI_PHYSADDR_MAX]; /* phyint's hw address */ size_t pi_hwaddrlen; /* phyint's hw address length */ /* * The pi_whenup array is a circular buffer of the most recent * times (in milliseconds since some arbitrary point of time in * the past) that the interface was brought up; pi_whendx identifies * the oldest element of the array. */ uint_t pi_whenup[LINK_UP_PERMIN]; unsigned int pi_whendx; uint_t pi_taddrmsg_printed : 1, /* testaddr msg printed */ pi_duptaddrmsg_printed : 1, /* dup testaddr msg printed */ pi_cfgmsg_printed : 1, /* bad config msg printed */ pi_lfmsg_printed : 1, /* link-flapping msg printed */ pi_link_state : 1, /* interface link state */ pi_hwaddrdup : 1; /* disabled due to dup hw address */ }; /* * A doubly linked list of all phyint_instances each of which contains a * doubly linked list of logical interfaces and targets. For eg. if both * IPv4 and IPv6 are used over hme0, we have 2 phyint instances, 1 for each * protocol. */ struct phyint_instance { struct phyint_instance *pii_next; /* List of all phyint insts */ struct phyint_instance *pii_prev; /* List of all phyint insts */ struct phyint *pii_phyint; /* Back pointer to the phyint */ struct target *pii_targets; /* List of targets on this link */ struct logint *pii_probe_logint; /* IFF_NOFAILOVER addr for probing */ struct logint *pii_logint; /* Doubly linked list of logical ifs */ int pii_probe_sock; /* Socket for ICMP Probe packets */ int pii_af; /* Address family */ uint16_t pii_rack; /* highest acknowledged seq number */ uint16_t pii_snxt; /* sequence number of next probe */ uint_t pii_snxt_time; /* actual next probe time that */ /* includes some randomness */ uint_t pii_snxt_basetime; /* strictly periodic base probe time */ /* for all periodic probes */ uint_t pii_fd_snxt_basetime; /* strictly periodic base probe time */ /* for failure detection probes */ hrtime_t pii_fd_hrtime; /* hrtime_t before which we should */ /* not send probes out this pii */ uint64_t pii_flags; /* Phyint flags from kernel */ struct probe_stats { uint_t pr_id; /* Full ID of probe */ struct target *pr_target; /* Probe Target */ uint_t pr_time_lost; /* Time probe declared lost */ struct timeval pr_tv_sent; /* Wall time probe was sent */ hrtime_t pr_hrtime_start; /* hrtime probe op started */ hrtime_t pr_hrtime_sent; /* hrtime probe was sent */ hrtime_t pr_hrtime_ackrecv; /* hrtime probe ack received */ hrtime_t pr_hrtime_ackproc; /* hrtime probe ack processed */ uint_t pr_status; /* probe status as below */ #define PR_UNUSED 0 /* Probe slot unused */ #define PR_UNACKED 1 /* Probe is unacknowledged */ #define PR_ACKED 2 /* Probe has been acknowledged */ #define PR_LOST 3 /* Probe is declared lost */ } pii_probes[PROBE_STATS_COUNT]; uint_t pii_in_use : 1, /* To detect removed phyints */ pii_basetime_inited : 1, /* probe time initialized */ pii_targets_are_routers : 1; /* routers or hosts ? */ uint_t pii_probe_next; /* next index to use in pii_probes[] */ struct target *pii_target_next; /* next target for probing */ struct target *pii_rtt_target_next; /* next target for rtt probes */ int pii_ntargets; /* Number of active targets */ struct stats { /* Cumulative statistics */ uint64_t lost; /* Number of probes lost */ uint64_t acked; /* Number of probes acked */ uint64_t sent; /* Number of probes sent */ uint64_t unknown; /* Number of ambiguous */ /* probe acks */ } pii_cum_stats; }; #define pii_name pii_phyint->pi_name #define pii_ifindex pii_phyint->pi_ifindex #define pii_state pii_phyint->pi_state #define pii_icmpid pii_phyint->pi_icmpid #define PR_STATUS_VALID(status) ((status) <= PR_LOST) /* * A doubly linked list of prefixes or logicals, hanging off the * phyint instance. */ struct logint { struct logint *li_next; /* Next logint of this phyint inst. */ struct logint *li_prev; /* Prev logint of this phyint inst. */ struct phyint_instance *li_phyint_inst; /* Back pointer to phyint inst. */ char li_name[LIFNAMSIZ + 1]; /* name Eg. hme0:1 */ struct in6_addr li_addr; /* IP address */ struct in6_addr li_dstaddr; /* Dst IP address for pointopoint */ struct in6_addr li_subnet; /* prefix / subnet */ uint_t li_subnet_len; /* prefix / subnet length */ uint64_t li_flags; /* IFF_* flags */ uint_t li_in_use : 1, /* flag to detect deleted logints */ li_dupaddr : 1; /* test address is not unique */ }; /* * Doubly-linked list of probe targets on a phyint instance. Probe targets are * usually onlink routers. If no onlink routers can be found, onlink hosts * are used. */ struct target { struct target *tg_next; /* Next target for this phyint inst. */ struct target *tg_prev; /* Prev target for this phyint inst. */ struct phyint_instance *tg_phyint_inst; /* Back pointer to phyint instance */ struct in6_addr tg_address; /* Target IP address */ int tg_status; /* Status of the target below */ #define TG_ACTIVE 1 /* active probe target */ #define TG_UNUSED 2 /* target not in use now */ #define TG_SLOW 3 /* rtt is high - Not in use now */ #define TG_DEAD 4 /* Target is not responding */ hrtime_t tg_latime; /* Target's last active time */ int64_t tg_rtt_sa; /* Scaled RTT average (in ns) */ int64_t tg_rtt_sd; /* Scaled RTT deviation (in ns) */ int tg_crtt; /* Conservative RTT = A + 4D (in ms) */ uint32_t tg_in_use : 1; /* In use flag */ int64_t tg_deferred[MAXDEFERREDRTT + 1]; /* Deferred rtt data points */ int tg_num_deferred; /* Number of deferred rtt data points */ }; #define TG_STATUS_VALID(status) \ (((status) >= TG_ACTIVE) && ((status) <= TG_DEAD)) /* * Statistics about consecutive probe failures are passed around between * functions in this structure. */ struct probe_fail_count { uint_t pf_tff; /* Earliest time of failure in a series */ int pf_nfail; /* Number of consecutive probe failures */ int pf_nfail_tg; /* Number of consecutive probe fails for */ /* some given target 'tg' */ }; /* * Statistics about consecutive probe successes is passed around between * functions in this structure. */ struct probe_success_count { uint_t ps_tls; /* Most recent time of probe success */ boolean_t ps_tls_valid; /* is ps_tls valid */ int ps_nsucc; /* Number of consecutive probe successes */ /* starting from the most recent */ int ps_nsucc_tg; /* Number of consecutive probe successes */ /* for some given target 'tg' */ }; /* * Statistics about missed probes that were never sent. * Happens due to scheduling delay. */ struct probes_missed { uint_t pm_nprobes; /* Cumulative number of missed probes */ uint_t pm_ntimes; /* Total number of occasions */ }; typedef struct addrlist { struct addrlist *al_next; /* next address */ char al_name[LIFNAMSIZ]; /* address lif name */ uint64_t al_flags; /* address flags */ struct sockaddr_storage al_addr; /* address */ } addrlist_t; /* * Globals */ extern addrlist_t *localaddrs; /* List of all local addresses, including local zones */ extern struct phyint *phyints; /* List of all phyints */ extern struct phyint_group *phyint_groups; /* List of all phyint groups */ extern struct phyint_group *phyint_anongroup; /* Pointer to the anon group */ extern struct phyint_instance *phyint_instances; /* List of all phyint instances */ extern struct probes_missed probes_missed; /* statistics about missed probes */ /* * Function prototypes */ extern int phyint_init(void); extern struct phyint *phyint_lookup(const char *name); extern struct phyint_instance *phyint_inst_lookup(int af, char *name); extern struct phyint_instance *phyint_inst_init_from_k(int af, char *name); extern struct phyint_instance *phyint_inst_other(struct phyint_instance *pii); extern int phyint_inst_update_from_k(struct phyint_instance *pii); extern void phyint_inst_delete(struct phyint_instance *pii); extern uint_t phyint_inst_timer(struct phyint_instance *pii); extern boolean_t phyint_inst_sockinit(struct phyint_instance *pii); extern void phyint_changed(struct phyint *pi); extern void phyint_chstate(struct phyint *pi, enum pi_state state); extern void phyint_group_chstate(struct phyint_group *pg, enum pg_state state); extern struct phyint_group *phyint_group_create(const char *pg_name); extern struct phyint_group *phyint_group_lookup(const char *pg_name); extern void phyint_group_insert(struct phyint_group *pg); extern void phyint_group_delete(struct phyint_group *pg); extern void phyint_group_refresh_state(struct phyint_group *pg); extern void phyint_check_for_repair(struct phyint *pi); extern void phyint_transition_to_running(struct phyint *pi); extern void phyint_activate_another(struct phyint *pi); extern int phyint_offline(struct phyint *pi, unsigned int); extern int phyint_undo_offline(struct phyint *pi); extern void logint_init_from_k(struct phyint_instance *pii, char *li_name); extern void logint_delete(struct logint *li); extern struct target *target_lookup(struct phyint_instance *pii, struct in6_addr addr); extern void target_create(struct phyint_instance *pii, struct in6_addr addr, boolean_t is_router); extern void target_delete(struct target *tg); extern struct target *target_next(struct target *tg); extern void target_add(struct phyint_instance *pii, struct in6_addr addr, boolean_t is_router); extern void in_data(struct phyint_instance *pii); extern void in6_data(struct phyint_instance *pii); extern void logperror_pii(struct phyint_instance *pii, const char *str); extern void logperror_li(struct logint *li, const char *str); extern char *pr_addr(int af, struct in6_addr addr, char *abuf, int len); extern void addr2storage(int af, const struct in6_addr *addr, struct sockaddr_storage *ssp); extern void phyint_inst_print_all(void); extern boolean_t prefix_equal(struct in6_addr, struct in6_addr, uint_t); extern void reset_crtt_all(struct phyint *pi); extern int failure_state(struct phyint_instance *pii); extern void process_link_state_changes(void); extern void clear_pii_probe_stats(struct phyint_instance *pii); extern void start_timer(struct phyint_instance *pii); extern void stop_probing(struct phyint *pi); extern boolean_t own_address(struct in6_addr addr); extern boolean_t change_pif_flags(struct phyint *pi, uint64_t set, uint64_t clear); extern void close_probe_socket(struct phyint_instance *pii, boolean_t flag); extern int probe_state_event(struct probe_stats *, struct phyint_instance *); extern void probe_chstate(struct probe_stats *, struct phyint_instance *, int); extern unsigned int getgraddrinfo(const char *, struct sockaddr_storage *, ipmp_addrinfo_t **); extern unsigned int getifinfo(const char *, ipmp_ifinfo_t **); extern unsigned int getgroupinfo(const char *, ipmp_groupinfo_t **); extern unsigned int getgrouplist(ipmp_grouplist_t **); extern unsigned int getsnap(ipmp_snap_t **); extern boolean_t addrlist_add(addrlist_t **, const char *, uint64_t, struct sockaddr_storage *); extern void addrlist_free(addrlist_t **); #ifdef __cplusplus } #endif #endif /* _MPD_TABLES_H */