8322 nl: misleading-indentation
[unleashed/tickless.git] / usr / src / cmd / fm / fmd / common / fmd_dr.c
blobe4fec10d0804fb63929c670dfa4d825c2416f4c1
1 /*
2 * CDDL HEADER START
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.
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.
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]
19 * CDDL HEADER END
22 * Copyright (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved.
26 * FMD Dynamic Reconfiguration (DR) Event Handling
28 * Fault manager scheme plug-ins must track characteristics of individual
29 * pieces of hardware. As these components can be added or removed by a DR
30 * operation, we need to provide a means by which plug-ins can determine when
31 * they need to re-examine the current configuration. We provide a simple
32 * mechanism whereby this task can be implemented using lazy evaluation: a
33 * simple 64-bit generation counter is maintained and incremented on *any* DR.
34 * Schemes can store the generation number in scheme-specific data structures,
35 * and then revalidate their contents if the current generation number has
36 * changed since the resource information was cached. This method saves time,
37 * avoids the complexity of direct participation in DR, avoids the need for
38 * resource-specific processing of DR events, and is relatively easy to port
39 * to other systems that support dynamic reconfiguration.
41 * The dr generation is only incremented in response to hardware changes. Since
42 * ASRUs can be in any scheme, including the device scheme, we must also be
43 * aware of software configuration changes which may affect the resource cache.
44 * In addition, we take a snapshot of the topology whenever a reconfiguration
45 * event occurs and notify any modules of the change.
48 #include <sys/types.h>
49 #include <sys/sunddi.h>
50 #include <sys/sysevent/dr.h>
51 #include <sys/sysevent/eventdefs.h>
53 #include <stdio.h>
54 #include <string.h>
55 #include <unistd.h>
56 #include <libsysevent.h>
58 #undef MUTEX_HELD
59 #undef RW_READ_HELD
60 #undef RW_WRITE_HELD
62 #include <fmd_asru.h>
63 #include <fmd_error.h>
64 #include <fmd_event.h>
65 #include <fmd_fmri.h>
66 #include <fmd_module.h>
67 #include <fmd_subr.h>
68 #include <fmd_topo.h>
69 #include <fmd.h>
71 void
72 fmd_dr_event(sysevent_t *sep)
74 uint64_t gen;
75 fmd_event_t *e;
76 const char *class = sysevent_get_class_name(sep);
77 const char *subclass = sysevent_get_subclass_name(sep);
78 hrtime_t evtime;
79 fmd_topo_t *ftp, *prev;
81 if (strcmp(class, EC_DR) == 0) {
82 if (strcmp(subclass, ESC_DR_AP_STATE_CHANGE) != 0 &&
83 strcmp(subclass, ESC_DR_TARGET_STATE_CHANGE) != 0)
84 return;
85 /* LINTED: E_NOP_IF_STMT */
86 } else if (strcmp(class, EC_DEVFS) == 0) {
88 * A devfs configuration event can change the topology,
89 * as disk nodes only exist when the device is configured.
91 } else if (strcmp(class, EC_PLATFORM) == 0) {
93 * Since we rely on the SP to enumerate fans,
94 * power-supplies and sensors/leds, it would be prudent
95 * to take a new snapshot if the SP resets.
97 if (strcmp(subclass, ESC_PLATFORM_SP_RESET) != 0)
98 return;
99 } else if (strcmp(class, EC_DEV_ADD) == 0 ||
100 strcmp(class, EC_DEV_REMOVE) == 0) {
101 if (strcmp(subclass, ESC_DISK) != 0)
102 return;
103 } else
104 return;
107 * Take a topo snapshot and notify modules of the change. Picking an
108 * accurate time here is difficult. On one hand, we have the timestamp
109 * of the underlying sysevent, indicating when the reconfiguration event
110 * occurred. On the other hand, we are taking the topo snapshot
111 * asynchronously, and hence the timestamp of the snapshot is the
112 * current time. Pretending this topo snapshot was valid at the time
113 * the sysevent was posted seems wrong, so we instead opt for the
114 * current time as an upper bound on the snapshot validity.
116 * Along these lines, we keep track of the last time we dispatched a
117 * topo snapshot. If the sysevent occurred before the last topo
118 * snapshot, then don't bother dispatching another topo change event.
119 * We've already indicated (to the best of our ability) the change in
120 * topology. This prevents endless topo snapshots in response to a
121 * flurry of sysevents.
123 sysevent_get_time(sep, &evtime);
124 prev = fmd_topo_hold();
125 if (evtime <= prev->ft_time_begin &&
126 fmd.d_clockops == &fmd_timeops_native) {
127 fmd_topo_rele(prev);
128 return;
130 fmd_topo_rele(prev);
132 (void) pthread_mutex_lock(&fmd.d_stats_lock);
133 gen = fmd.d_stats->ds_dr_gen.fmds_value.ui64++;
134 (void) pthread_mutex_unlock(&fmd.d_stats_lock);
136 TRACE((FMD_DBG_XPRT, "dr event %p, gen=%llu", (void *)sep, gen));
137 fmd_topo_update();
139 ftp = fmd_topo_hold();
140 e = fmd_event_create(FMD_EVT_TOPO, ftp->ft_time_end, NULL, ftp);
141 fmd_modhash_dispatch(fmd.d_mod_hash, e);