/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * restarter.c - service manipulation * * This component manages services whose restarter is svc.startd, the standard * restarter. It translates restarter protocol events from the graph engine * into actions on processes, as a delegated restarter would do. * * The master restarter manages a number of always-running threads: * - restarter event thread: events from the graph engine * - timeout thread: thread to fire queued timeouts * - contract thread: thread to handle contract events * - wait thread: thread to handle wait-based services * * The other threads are created as-needed: * - per-instance method threads * - per-instance event processing threads * * The interaction of all threads must result in the following conditions * being satisfied (on a per-instance basis): * - restarter events must be processed in order * - method execution must be serialized * - instance delete must be held until outstanding methods are complete * - contract events shouldn't be processed while a method is running * - timeouts should fire even when a method is running * * Service instances are represented by restarter_inst_t's and are kept in the * instance_list list. * * Service States * The current state of a service instance is kept in * restarter_inst_t->ri_i.i_state. If transition to a new state could take * some time, then before we effect the transition we set * restarter_inst_t->ri_i.i_next_state to the target state, and afterwards we * rotate i_next_state to i_state and set i_next_state to * RESTARTER_STATE_NONE. So usually i_next_state is _NONE when ri_lock is not * held. The exception is when we launch methods, which are done with * a separate thread. To keep any other threads from grabbing ri_lock before * method_thread() does, we set ri_method_thread to the thread id of the * method thread, and when it is nonzero any thread with a different thread id * waits on ri_method_cv. * * Method execution is serialized by blocking on ri_method_cv in * inst_lookup_by_id() and waiting for a 0 value of ri_method_thread. This * also prevents the instance structure from being deleted until all * outstanding operations such as method_thread() have finished. * * Lock ordering: * * dgraph_lock [can be held when taking:] * utmpx_lock * dictionary->dict_lock * st->st_load_lock * wait_info_lock * ru->restarter_update_lock * restarter_queue->rpeq_lock * instance_list.ril_lock * inst->ri_lock * st->st_configd_live_lock * * instance_list.ril_lock * graph_queue->gpeq_lock * gu->gu_lock * st->st_configd_live_lock * dictionary->dict_lock * inst->ri_lock * graph_queue->gpeq_lock * gu->gu_lock * tu->tu_lock * tq->tq_lock * inst->ri_queue_lock * wait_info_lock * bp->cb_lock * utmpx_lock * * single_user_thread_lock * wait_info_lock * utmpx_lock * * gu_freeze_lock * * logbuf_mutex nests inside pretty much everything. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "startd.h" #include "protocol.h" static uu_list_pool_t *restarter_instance_pool; static restarter_instance_list_t instance_list; static uu_list_pool_t *restarter_queue_pool; /*ARGSUSED*/ static int restarter_instance_compare(const void *lc_arg, const void *rc_arg, void *private) { int lc_id = ((const restarter_inst_t *)lc_arg)->ri_id; int rc_id = *(int *)rc_arg; if (lc_id > rc_id) return (1); if (lc_id < rc_id) return (-1); return (0); } static restarter_inst_t * inst_lookup_by_name(const char *name) { int id; id = dict_lookup_byname(name); if (id == -1) return (NULL); return (inst_lookup_by_id(id)); } restarter_inst_t * inst_lookup_by_id(int id) { restarter_inst_t *inst; MUTEX_LOCK(&instance_list.ril_lock); inst = uu_list_find(instance_list.ril_instance_list, &id, NULL, NULL); if (inst != NULL) MUTEX_LOCK(&inst->ri_lock); MUTEX_UNLOCK(&instance_list.ril_lock); if (inst != NULL) { while (inst->ri_method_thread != 0 && !pthread_equal(inst->ri_method_thread, pthread_self())) { ++inst->ri_method_waiters; (void) pthread_cond_wait(&inst->ri_method_cv, &inst->ri_lock); assert(inst->ri_method_waiters > 0); --inst->ri_method_waiters; } } return (inst); } static restarter_inst_t * inst_lookup_queue(const char *name) { int id; restarter_inst_t *inst; id = dict_lookup_byname(name); if (id == -1) return (NULL); MUTEX_LOCK(&instance_list.ril_lock); inst = uu_list_find(instance_list.ril_instance_list, &id, NULL, NULL); if (inst != NULL) MUTEX_LOCK(&inst->ri_queue_lock); MUTEX_UNLOCK(&instance_list.ril_lock); return (inst); } const char * service_style(int flags) { switch (flags & RINST_STYLE_MASK) { case RINST_CONTRACT: return ("contract"); case RINST_TRANSIENT: return ("transient"); case RINST_WAIT: return ("wait"); default: #ifndef NDEBUG uu_warn("%s:%d: Bad flags 0x%x.\n", __FILE__, __LINE__, flags); #endif abort(); /* NOTREACHED */ } } /* * Fails with ECONNABORTED or ECANCELED. */ static int check_contract(restarter_inst_t *inst, boolean_t primary, scf_instance_t *scf_inst) { ctid_t *ctidp; int fd, r; ctidp = primary ? &inst->ri_i.i_primary_ctid : &inst->ri_i.i_transient_ctid; assert(*ctidp >= 1); fd = contract_open(*ctidp, NULL, "status", O_RDONLY); if (fd >= 0) { r = close(fd); assert(r == 0); return (0); } r = restarter_remove_contract(scf_inst, *ctidp, primary ? RESTARTER_CONTRACT_PRIMARY : RESTARTER_CONTRACT_TRANSIENT); switch (r) { case 0: case ECONNABORTED: case ECANCELED: *ctidp = 0; return (r); case ENOMEM: uu_die("Out of memory\n"); /* NOTREACHED */ case EPERM: uu_die("Insufficient privilege.\n"); /* NOTREACHED */ case EACCES: uu_die("Repository backend access denied.\n"); /* NOTREACHED */ case EROFS: log_error(LOG_INFO, "Could not remove unusable contract id %ld " "for %s from repository.\n", *ctidp, inst->ri_i.i_fmri); return (0); case EINVAL: case EBADF: default: assert(0); abort(); /* NOTREACHED */ } } static int stop_instance(scf_handle_t *, restarter_inst_t *, stop_cause_t); /* * int restarter_insert_inst(scf_handle_t *, char *) * If the inst is already in the restarter list, return its id. If the inst * is not in the restarter list, initialize a restarter_inst_t, initialize its * states, insert it into the list, and return 0. * * Fails with * ENOENT - name is not in the repository */ static int restarter_insert_inst(scf_handle_t *h, const char *name) { int id, r; restarter_inst_t *inst; uu_list_index_t idx; scf_service_t *scf_svc; scf_instance_t *scf_inst; scf_snapshot_t *snap = NULL; scf_propertygroup_t *pg; char *svc_name, *inst_name; char logfilebuf[PATH_MAX]; char *c; boolean_t do_commit_states; restarter_instance_state_t state, next_state; protocol_states_t *ps; pid_t start_pid; MUTEX_LOCK(&instance_list.ril_lock); /* * We don't use inst_lookup_by_name() here because we want the lookup * & insert to be atomic. */ id = dict_lookup_byname(name); if (id != -1) { inst = uu_list_find(instance_list.ril_instance_list, &id, NULL, &idx); if (inst != NULL) { MUTEX_UNLOCK(&instance_list.ril_lock); return (0); } } /* Allocate an instance */ inst = startd_zalloc(sizeof (restarter_inst_t)); inst->ri_utmpx_prefix = startd_alloc(max_scf_value_size); inst->ri_utmpx_prefix[0] = '\0'; inst->ri_i.i_fmri = startd_alloc(strlen(name) + 1); (void) strcpy((char *)inst->ri_i.i_fmri, name); inst->ri_queue = startd_list_create(restarter_queue_pool, inst, 0); /* * id shouldn't be -1 since we use the same dictionary as graph.c, but * just in case. */ inst->ri_id = (id != -1 ? id : dict_insert(name)); special_online_hooks_get(name, &inst->ri_pre_online_hook, &inst->ri_post_online_hook, &inst->ri_post_offline_hook); scf_svc = safe_scf_service_create(h); scf_inst = safe_scf_instance_create(h); pg = safe_scf_pg_create(h); svc_name = startd_alloc(max_scf_name_size); inst_name = startd_alloc(max_scf_name_size); rep_retry: if (snap != NULL) scf_snapshot_destroy(snap); if (inst->ri_logstem != NULL) startd_free(inst->ri_logstem, PATH_MAX); if (inst->ri_common_name != NULL) startd_free(inst->ri_common_name, max_scf_value_size); if (inst->ri_C_common_name != NULL) startd_free(inst->ri_C_common_name, max_scf_value_size); snap = NULL; inst->ri_logstem = NULL; inst->ri_common_name = NULL; inst->ri_C_common_name = NULL; if (scf_handle_decode_fmri(h, name, NULL, scf_svc, scf_inst, NULL, NULL, SCF_DECODE_FMRI_EXACT) != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: libscf_handle_rebind(h); goto rep_retry; case SCF_ERROR_NOT_FOUND: goto deleted; } uu_die("Can't decode FMRI %s: %s\n", name, scf_strerror(scf_error())); } /* * If there's no running snapshot, then we execute using the editing * snapshot. Pending snapshots will be taken later. */ snap = libscf_get_running_snapshot(scf_inst); if ((scf_service_get_name(scf_svc, svc_name, max_scf_name_size) < 0) || (scf_instance_get_name(scf_inst, inst_name, max_scf_name_size) < 0)) { switch (scf_error()) { case SCF_ERROR_NOT_SET: break; case SCF_ERROR_CONNECTION_BROKEN: libscf_handle_rebind(h); goto rep_retry; default: assert(0); abort(); } goto deleted; } (void) snprintf(logfilebuf, PATH_MAX, "%s:%s", svc_name, inst_name); for (c = logfilebuf; *c != '\0'; c++) if (*c == '/') *c = '-'; inst->ri_logstem = startd_alloc(PATH_MAX); (void) snprintf(inst->ri_logstem, PATH_MAX, "%s%s", logfilebuf, LOG_SUFFIX); /* * If the restarter group is missing, use uninit/none. Otherwise, * we're probably being restarted & don't want to mess up the states * that are there. */ state = RESTARTER_STATE_UNINIT; next_state = RESTARTER_STATE_NONE; r = scf_instance_get_pg(scf_inst, SCF_PG_RESTARTER, pg); if (r != 0) { switch (scf_error()) { case SCF_ERROR_CONNECTION_BROKEN: libscf_handle_rebind(h); goto rep_retry; case SCF_ERROR_NOT_SET: goto deleted; case SCF_ERROR_NOT_FOUND: /* * This shouldn't happen since the graph engine should * have initialized the state to uninitialized/none if * there was no restarter pg. In case somebody * deleted it, though.... */ do_commit_states = B_TRUE; break; default: assert(0); abort(); } } else { r = libscf_read_states(pg, &state, &next_state); if (r != 0) { do_commit_states = B_TRUE; } else { if (next_state != RESTARTER_STATE_NONE) { /* * Force next_state to _NONE since we * don't look for method processes. */ next_state = RESTARTER_STATE_NONE; do_commit_states = B_TRUE; } else { /* * Inform the restarter of our state without * changing the STIME in the repository. */ ps = startd_alloc(sizeof (*ps)); inst->ri_i.i_state = ps->ps_state = state; inst->ri_i.i_next_state = ps->ps_state_next = next_state; graph_protocol_send_event(inst->ri_i.i_fmri, GRAPH_UPDATE_STATE_CHANGE, ps); do_commit_states = B_FALSE; } } } switch (libscf_get_startd_properties(scf_inst, snap, &inst->ri_flags, &inst->ri_utmpx_prefix)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ECANCELED: goto deleted; case ENOENT: /* * This is odd, because the graph engine should have required * the general property group. So we'll just use default * flags in anticipation of the graph engine sending us * REMOVE_INSTANCE when it finds out that the general property * group has been deleted. */ inst->ri_flags = RINST_CONTRACT; break; default: assert(0); abort(); } switch (libscf_get_template_values(scf_inst, snap, &inst->ri_common_name, &inst->ri_C_common_name)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ECANCELED: goto deleted; case ECHILD: case ENOENT: break; default: assert(0); abort(); } switch (libscf_read_method_ids(h, scf_inst, inst->ri_i.i_fmri, &inst->ri_i.i_primary_ctid, &inst->ri_i.i_transient_ctid, &start_pid)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ECANCELED: goto deleted; default: assert(0); abort(); } if (inst->ri_i.i_primary_ctid >= 1) { contract_hash_store(inst->ri_i.i_primary_ctid, inst->ri_id); switch (check_contract(inst, B_TRUE, scf_inst)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ECANCELED: goto deleted; default: assert(0); abort(); } } if (inst->ri_i.i_transient_ctid >= 1) { switch (check_contract(inst, B_FALSE, scf_inst)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ECANCELED: goto deleted; default: assert(0); abort(); } } /* No more failures we live through, so add it to the list. */ (void) pthread_mutex_init(&inst->ri_lock, &mutex_attrs); (void) pthread_mutex_init(&inst->ri_queue_lock, &mutex_attrs); MUTEX_LOCK(&inst->ri_lock); MUTEX_LOCK(&inst->ri_queue_lock); (void) pthread_cond_init(&inst->ri_method_cv, NULL); uu_list_node_init(inst, &inst->ri_link, restarter_instance_pool); uu_list_insert(instance_list.ril_instance_list, inst, idx); MUTEX_UNLOCK(&instance_list.ril_lock); if (start_pid != -1 && (inst->ri_flags & RINST_STYLE_MASK) == RINST_WAIT) { int ret; ret = wait_register(start_pid, inst->ri_i.i_fmri, 0, 1); if (ret == -1) { /* * Implication: if we can't reregister the * instance, we will start another one. Two * instances may or may not result in a resource * conflict. */ log_error(LOG_WARNING, "%s: couldn't reregister %ld for wait\n", inst->ri_i.i_fmri, start_pid); } else if (ret == 1) { /* * Leading PID has exited. */ (void) stop_instance(h, inst, RSTOP_EXIT); } } scf_pg_destroy(pg); if (do_commit_states) (void) restarter_instance_update_states(h, inst, state, next_state, RERR_NONE, NULL); log_framework(LOG_DEBUG, "%s is a %s-style service\n", name, service_style(inst->ri_flags)); MUTEX_UNLOCK(&inst->ri_queue_lock); MUTEX_UNLOCK(&inst->ri_lock); startd_free(svc_name, max_scf_name_size); startd_free(inst_name, max_scf_name_size); scf_snapshot_destroy(snap); scf_instance_destroy(scf_inst); scf_service_destroy(scf_svc); log_framework(LOG_DEBUG, "%s: inserted instance into restarter list\n", name); return (0); deleted: MUTEX_UNLOCK(&instance_list.ril_lock); startd_free(inst_name, max_scf_name_size); startd_free(svc_name, max_scf_name_size); if (snap != NULL) scf_snapshot_destroy(snap); scf_pg_destroy(pg); scf_instance_destroy(scf_inst); scf_service_destroy(scf_svc); startd_free((void *)inst->ri_i.i_fmri, strlen(inst->ri_i.i_fmri) + 1); uu_list_destroy(inst->ri_queue); if (inst->ri_logstem != NULL) startd_free(inst->ri_logstem, PATH_MAX); if (inst->ri_common_name != NULL) startd_free(inst->ri_common_name, max_scf_value_size); if (inst->ri_C_common_name != NULL) startd_free(inst->ri_C_common_name, max_scf_value_size); startd_free(inst->ri_utmpx_prefix, max_scf_value_size); startd_free(inst, sizeof (restarter_inst_t)); return (ENOENT); } static void restarter_delete_inst(restarter_inst_t *ri) { int id; restarter_inst_t *rip; void *cookie = NULL; restarter_instance_qentry_t *e; assert(PTHREAD_MUTEX_HELD(&ri->ri_lock)); /* * Must drop the instance lock so we can pick up the instance_list * lock & remove the instance. */ id = ri->ri_id; MUTEX_UNLOCK(&ri->ri_lock); MUTEX_LOCK(&instance_list.ril_lock); rip = uu_list_find(instance_list.ril_instance_list, &id, NULL, NULL); if (rip == NULL) { MUTEX_UNLOCK(&instance_list.ril_lock); return; } assert(ri == rip); uu_list_remove(instance_list.ril_instance_list, ri); log_framework(LOG_DEBUG, "%s: deleted instance from restarter list\n", ri->ri_i.i_fmri); MUTEX_UNLOCK(&instance_list.ril_lock); /* * We can lock the instance without holding the instance_list lock * since we removed the instance from the list. */ MUTEX_LOCK(&ri->ri_lock); MUTEX_LOCK(&ri->ri_queue_lock); if (ri->ri_i.i_primary_ctid >= 1) contract_hash_remove(ri->ri_i.i_primary_ctid); while (ri->ri_method_thread != 0 || ri->ri_method_waiters > 0) (void) pthread_cond_wait(&ri->ri_method_cv, &ri->ri_lock); while ((e = uu_list_teardown(ri->ri_queue, &cookie)) != NULL) startd_free(e, sizeof (*e)); uu_list_destroy(ri->ri_queue); startd_free((void *)ri->ri_i.i_fmri, strlen(ri->ri_i.i_fmri) + 1); startd_free(ri->ri_logstem, PATH_MAX); startd_free(ri->ri_utmpx_prefix, max_scf_value_size); (void) pthread_mutex_destroy(&ri->ri_lock); (void) pthread_mutex_destroy(&ri->ri_queue_lock); startd_free(ri, sizeof (restarter_inst_t)); } /* * instance_is_wait_style() * * Returns 1 if the given instance is a "wait-style" service instance. */ int instance_is_wait_style(restarter_inst_t *inst) { assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); return ((inst->ri_flags & RINST_STYLE_MASK) == RINST_WAIT); } /* * instance_is_transient_style() * * Returns 1 if the given instance is a transient service instance. */ int instance_is_transient_style(restarter_inst_t *inst) { assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); return ((inst->ri_flags & RINST_STYLE_MASK) == RINST_TRANSIENT); } /* * instance_in_transition() * Returns 1 if instance is in transition, 0 if not */ int instance_in_transition(restarter_inst_t *inst) { assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); if (inst->ri_i.i_next_state == RESTARTER_STATE_NONE) return (0); return (1); } /* * Returns * 0 - success * ECONNRESET - success, but h was rebound */ int restarter_instance_update_states(scf_handle_t *h, restarter_inst_t *ri, restarter_instance_state_t new_state, restarter_instance_state_t new_state_next, restarter_error_t err, char *aux) { protocol_states_t *states; int e; uint_t retry_count = 0, msecs = ALLOC_DELAY; boolean_t rebound = B_FALSE; assert(PTHREAD_MUTEX_HELD(&ri->ri_lock)); retry: e = _restarter_commit_states(h, &ri->ri_i, new_state, new_state_next, aux); switch (e) { case 0: break; case ENOMEM: ++retry_count; if (retry_count < ALLOC_RETRY) { (void) poll(NULL, 0, msecs); msecs *= ALLOC_DELAY_MULT; goto retry; } /* Like startd_alloc(). */ uu_die("Insufficient memory.\n"); /* NOTREACHED */ case ECONNABORTED: libscf_handle_rebind(h); rebound = B_TRUE; goto retry; case EPERM: case EACCES: case EROFS: log_error(LOG_NOTICE, "Could not commit state change for %s " "to repository: %s.\n", ri->ri_i.i_fmri, strerror(e)); /* FALLTHROUGH */ case ENOENT: ri->ri_i.i_state = new_state; ri->ri_i.i_next_state = new_state_next; break; case EINVAL: default: bad_error("_restarter_commit_states", e); } states = startd_alloc(sizeof (protocol_states_t)); states->ps_state = new_state; states->ps_state_next = new_state_next; states->ps_err = err; graph_protocol_send_event(ri->ri_i.i_fmri, GRAPH_UPDATE_STATE_CHANGE, (void *)states); if (new_state == RESTARTER_STATE_ONLINE) ri->ri_post_online_hook(); return (rebound ? ECONNRESET : 0); } void restarter_mark_pending_snapshot(const char *fmri, uint_t flag) { restarter_inst_t *inst; assert(flag == RINST_RETAKE_RUNNING || flag == RINST_RETAKE_START); inst = inst_lookup_by_name(fmri); if (inst == NULL) return; inst->ri_flags |= flag; MUTEX_UNLOCK(&inst->ri_lock); } static void restarter_take_pending_snapshots(scf_handle_t *h) { restarter_inst_t *inst; int r; MUTEX_LOCK(&instance_list.ril_lock); for (inst = uu_list_first(instance_list.ril_instance_list); inst != NULL; inst = uu_list_next(instance_list.ril_instance_list, inst)) { const char *fmri; scf_instance_t *sinst = NULL; MUTEX_LOCK(&inst->ri_lock); /* * This is where we'd check inst->ri_method_thread and if it * were nonzero we'd wait in anticipation of another thread * executing a method for inst. Doing so with the instance_list * locked, though, leads to deadlock. Since taking a snapshot * during that window won't hurt anything, we'll just continue. */ fmri = inst->ri_i.i_fmri; if (inst->ri_flags & RINST_RETAKE_RUNNING) { scf_snapshot_t *rsnap; (void) libscf_fmri_get_instance(h, fmri, &sinst); rsnap = libscf_get_or_make_running_snapshot(sinst, fmri, B_FALSE); scf_instance_destroy(sinst); if (rsnap != NULL) inst->ri_flags &= ~RINST_RETAKE_RUNNING; scf_snapshot_destroy(rsnap); } if (inst->ri_flags & RINST_RETAKE_START) { switch (r = libscf_snapshots_poststart(h, fmri, B_FALSE)) { case 0: case ENOENT: inst->ri_flags &= ~RINST_RETAKE_START; break; case ECONNABORTED: break; case EACCES: default: bad_error("libscf_snapshots_poststart", r); } } MUTEX_UNLOCK(&inst->ri_lock); } MUTEX_UNLOCK(&instance_list.ril_lock); } /* ARGSUSED */ void * restarter_post_fsminimal_thread(void *unused) { scf_handle_t *h; int r; h = libscf_handle_create_bound_loop(); for (;;) { r = libscf_create_self(h); if (r == 0) break; assert(r == ECONNABORTED); libscf_handle_rebind(h); } restarter_take_pending_snapshots(h); (void) scf_handle_unbind(h); scf_handle_destroy(h); return (NULL); } /* * returns 1 if instance is already started, 0 if not */ static int instance_started(restarter_inst_t *inst) { int ret; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); if (inst->ri_i.i_state == RESTARTER_STATE_ONLINE || inst->ri_i.i_state == RESTARTER_STATE_DEGRADED) ret = 1; else ret = 0; return (ret); } /* * int stop_instance() * * Stop the instance identified by the instance given as the second argument, * for the cause stated. * * Returns * 0 - success * -1 - inst is in transition */ static int stop_instance(scf_handle_t *local_handle, restarter_inst_t *inst, stop_cause_t cause) { fork_info_t *info; const char *cp; int err; restarter_error_t re; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); assert(inst->ri_method_thread == 0); switch (cause) { case RSTOP_EXIT: re = RERR_RESTART; cp = "all processes in service exited"; break; case RSTOP_CORE: re = RERR_FAULT; cp = "process dumped core"; break; case RSTOP_SIGNAL: re = RERR_FAULT; cp = "process received fatal signal from outside the service"; break; case RSTOP_HWERR: re = RERR_FAULT; cp = "process killed due to uncorrectable hardware error"; break; case RSTOP_DEPENDENCY: re = RERR_RESTART; cp = "dependency activity requires stop"; break; case RSTOP_DISABLE: re = RERR_RESTART; cp = "service disabled"; break; case RSTOP_RESTART: re = RERR_RESTART; cp = "service restarting"; break; default: #ifndef NDEBUG (void) fprintf(stderr, "Unknown cause %d at %s:%d.\n", cause, __FILE__, __LINE__); #endif abort(); } /* Services in the disabled and maintenance state are ignored */ if (inst->ri_i.i_state == RESTARTER_STATE_MAINT || inst->ri_i.i_state == RESTARTER_STATE_DISABLED) { log_framework(LOG_DEBUG, "%s: stop_instance -> is maint/disabled\n", inst->ri_i.i_fmri); return (0); } /* Already stopped instances are left alone */ if (instance_started(inst) == 0) { log_framework(LOG_DEBUG, "Restarter: %s is already stopped.\n", inst->ri_i.i_fmri); return (0); } if (instance_in_transition(inst)) { /* requeue event by returning -1 */ log_framework(LOG_DEBUG, "Restarter: Not stopping %s, in transition.\n", inst->ri_i.i_fmri); return (-1); } log_instance(inst, B_TRUE, "Stopping because %s.", cp); log_framework(re == RERR_FAULT ? LOG_INFO : LOG_DEBUG, "%s: Instance stopping because %s.\n", inst->ri_i.i_fmri, cp); if (instance_is_wait_style(inst) && cause == RSTOP_EXIT) { /* * No need to stop instance, as child has exited; remove * contract and move the instance to the offline state. */ switch (err = restarter_instance_update_states(local_handle, inst, inst->ri_i.i_state, RESTARTER_STATE_OFFLINE, re, NULL)) { case 0: case ECONNRESET: break; default: bad_error("restarter_instance_update_states", err); } (void) update_fault_count(inst, FAULT_COUNT_RESET); if (inst->ri_i.i_primary_ctid != 0) { inst->ri_m_inst = safe_scf_instance_create(local_handle); inst->ri_mi_deleted = B_FALSE; libscf_reget_instance(inst); method_remove_contract(inst, B_TRUE, B_TRUE); scf_instance_destroy(inst->ri_m_inst); inst->ri_m_inst = NULL; } switch (err = restarter_instance_update_states(local_handle, inst, inst->ri_i.i_next_state, RESTARTER_STATE_NONE, re, NULL)) { case 0: case ECONNRESET: break; default: bad_error("restarter_instance_update_states", err); } return (0); } switch (err = restarter_instance_update_states(local_handle, inst, inst->ri_i.i_state, inst->ri_i.i_enabled ? RESTARTER_STATE_OFFLINE : RESTARTER_STATE_DISABLED, RERR_NONE, NULL)) { case 0: case ECONNRESET: break; default: bad_error("restarter_instance_update_states", err); } info = startd_zalloc(sizeof (fork_info_t)); info->sf_id = inst->ri_id; info->sf_method_type = METHOD_STOP; info->sf_event_type = re; inst->ri_method_thread = startd_thread_create(method_thread, info); return (0); } /* * Returns * ENOENT - fmri is not in instance_list * 0 - success * ECONNRESET - success, though handle was rebound * -1 - instance is in transition */ int stop_instance_fmri(scf_handle_t *h, const char *fmri, uint_t flags) { restarter_inst_t *rip; int r; rip = inst_lookup_by_name(fmri); if (rip == NULL) return (ENOENT); r = stop_instance(h, rip, flags); MUTEX_UNLOCK(&rip->ri_lock); return (r); } static void unmaintain_instance(scf_handle_t *h, restarter_inst_t *rip, unmaint_cause_t cause) { ctid_t ctid; scf_instance_t *inst; int r; uint_t tries = 0, msecs = ALLOC_DELAY; const char *cp; assert(PTHREAD_MUTEX_HELD(&rip->ri_lock)); if (rip->ri_i.i_state != RESTARTER_STATE_MAINT) { log_error(LOG_DEBUG, "Restarter: " "Ignoring maintenance off command because %s is not in the " "maintenance state.\n", rip->ri_i.i_fmri); return; } switch (cause) { case RUNMAINT_CLEAR: cp = "clear requested"; break; case RUNMAINT_DISABLE: cp = "disable requested"; break; default: #ifndef NDEBUG (void) fprintf(stderr, "Uncaught case for %d at %s:%d.\n", cause, __FILE__, __LINE__); #endif abort(); } log_instance(rip, B_TRUE, "Leaving maintenance because %s.", cp); log_framework(LOG_DEBUG, "%s: Instance leaving maintenance because " "%s.\n", rip->ri_i.i_fmri, cp); (void) restarter_instance_update_states(h, rip, RESTARTER_STATE_UNINIT, RESTARTER_STATE_NONE, RERR_RESTART, NULL); /* * If we did ADMIN_MAINT_ON_IMMEDIATE, then there might still be * a primary contract. */ if (rip->ri_i.i_primary_ctid == 0) return; ctid = rip->ri_i.i_primary_ctid; contract_abandon(ctid); rip->ri_i.i_primary_ctid = 0; rep_retry: switch (r = libscf_fmri_get_instance(h, rip->ri_i.i_fmri, &inst)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ENOENT: /* Must have been deleted. */ return; case EINVAL: case ENOTSUP: default: bad_error("libscf_handle_rebind", r); } again: r = restarter_remove_contract(inst, ctid, RESTARTER_CONTRACT_PRIMARY); switch (r) { case 0: break; case ENOMEM: ++tries; if (tries < ALLOC_RETRY) { (void) poll(NULL, 0, msecs); msecs *= ALLOC_DELAY_MULT; goto again; } uu_die("Insufficient memory.\n"); /* NOTREACHED */ case ECONNABORTED: scf_instance_destroy(inst); libscf_handle_rebind(h); goto rep_retry; case ECANCELED: break; case EPERM: case EACCES: case EROFS: log_error(LOG_INFO, "Could not remove contract id %lu for %s (%s).\n", ctid, rip->ri_i.i_fmri, strerror(r)); break; case EINVAL: case EBADF: default: bad_error("restarter_remove_contract", r); } scf_instance_destroy(inst); } /* * enable_inst() * Set inst->ri_i.i_enabled. Expects 'e' to be _ENABLE, _DISABLE, or * _ADMIN_DISABLE. If the event is _ENABLE and inst is uninitialized or * disabled, move it to offline. If the event is _DISABLE or * _ADMIN_DISABLE, make sure inst will move to disabled. * * Returns * 0 - success * ECONNRESET - h was rebound */ static int enable_inst(scf_handle_t *h, restarter_inst_t *inst, restarter_event_type_t e) { restarter_instance_state_t state; int r; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); assert(e == RESTARTER_EVENT_TYPE_ADMIN_DISABLE || e == RESTARTER_EVENT_TYPE_DISABLE || e == RESTARTER_EVENT_TYPE_ENABLE); assert(instance_in_transition(inst) == 0); state = inst->ri_i.i_state; if (e == RESTARTER_EVENT_TYPE_ENABLE) { inst->ri_i.i_enabled = 1; if (state == RESTARTER_STATE_UNINIT || state == RESTARTER_STATE_DISABLED) { /* * B_FALSE: Don't log an error if the log_instance() * fails because it will fail on the miniroot before * install-discovery runs. */ log_instance(inst, B_FALSE, "Enabled."); log_framework(LOG_DEBUG, "%s: Instance enabled.\n", inst->ri_i.i_fmri); (void) restarter_instance_update_states(h, inst, RESTARTER_STATE_OFFLINE, RESTARTER_STATE_NONE, RERR_NONE, NULL); } else { log_framework(LOG_DEBUG, "Restarter: " "Not changing state of %s for enable command.\n", inst->ri_i.i_fmri); } } else { inst->ri_i.i_enabled = 0; switch (state) { case RESTARTER_STATE_ONLINE: case RESTARTER_STATE_DEGRADED: r = stop_instance(h, inst, RSTOP_DISABLE); return (r == ECONNRESET ? 0 : r); case RESTARTER_STATE_OFFLINE: case RESTARTER_STATE_UNINIT: if (inst->ri_i.i_primary_ctid != 0) { inst->ri_m_inst = safe_scf_instance_create(h); inst->ri_mi_deleted = B_FALSE; libscf_reget_instance(inst); method_remove_contract(inst, B_TRUE, B_TRUE); scf_instance_destroy(inst->ri_m_inst); } /* B_FALSE: See log_instance(..., "Enabled."); above */ log_instance(inst, B_FALSE, "Disabled."); log_framework(LOG_DEBUG, "%s: Instance disabled.\n", inst->ri_i.i_fmri); (void) restarter_instance_update_states(h, inst, RESTARTER_STATE_DISABLED, RESTARTER_STATE_NONE, RERR_RESTART, NULL); return (0); case RESTARTER_STATE_DISABLED: break; case RESTARTER_STATE_MAINT: /* * We only want to pull the instance out of maintenance * if the disable is on adminstrative request. The * graph engine sends _DISABLE events whenever a * service isn't in the disabled state, and we don't * want to pull the service out of maintenance if, * for example, it is there due to a dependency cycle. */ if (e == RESTARTER_EVENT_TYPE_ADMIN_DISABLE) unmaintain_instance(h, inst, RUNMAINT_DISABLE); break; default: #ifndef NDEBUG (void) fprintf(stderr, "Restarter instance %s has " "unknown state %d.\n", inst->ri_i.i_fmri, state); #endif abort(); } } return (0); } static void start_instance(scf_handle_t *local_handle, restarter_inst_t *inst) { fork_info_t *info; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); assert(instance_in_transition(inst) == 0); assert(inst->ri_method_thread == 0); log_framework(LOG_DEBUG, "%s: trying to start instance\n", inst->ri_i.i_fmri); /* Services in the disabled and maintenance state are ignored */ if (inst->ri_i.i_state == RESTARTER_STATE_MAINT || inst->ri_i.i_state == RESTARTER_STATE_DISABLED || inst->ri_i.i_enabled == 0) { log_framework(LOG_DEBUG, "%s: start_instance -> is maint/disabled\n", inst->ri_i.i_fmri); return; } /* Already started instances are left alone */ if (instance_started(inst) == 1) { log_framework(LOG_DEBUG, "%s: start_instance -> is already started\n", inst->ri_i.i_fmri); return; } log_framework(LOG_DEBUG, "%s: starting instance.\n", inst->ri_i.i_fmri); (void) restarter_instance_update_states(local_handle, inst, inst->ri_i.i_state, RESTARTER_STATE_ONLINE, RERR_NONE, NULL); info = startd_zalloc(sizeof (fork_info_t)); info->sf_id = inst->ri_id; info->sf_method_type = METHOD_START; info->sf_event_type = RERR_NONE; inst->ri_method_thread = startd_thread_create(method_thread, info); } static void maintain_instance(scf_handle_t *h, restarter_inst_t *rip, int immediate, const char *aux) { fork_info_t *info; assert(PTHREAD_MUTEX_HELD(&rip->ri_lock)); assert(aux != NULL); assert(rip->ri_method_thread == 0); log_instance(rip, B_TRUE, "Stopping for maintenance due to %s.", aux); log_framework(LOG_DEBUG, "%s: stopping for maintenance due to %s.\n", rip->ri_i.i_fmri, aux); /* Services in the maintenance state are ignored */ if (rip->ri_i.i_state == RESTARTER_STATE_MAINT) { log_framework(LOG_DEBUG, "%s: maintain_instance -> is already in maintenance\n", rip->ri_i.i_fmri); return; } if (immediate || !instance_started(rip)) { if (rip->ri_i.i_primary_ctid != 0) { rip->ri_m_inst = safe_scf_instance_create(h); rip->ri_mi_deleted = B_FALSE; libscf_reget_instance(rip); method_remove_contract(rip, B_TRUE, B_TRUE); scf_instance_destroy(rip->ri_m_inst); } (void) restarter_instance_update_states(h, rip, RESTARTER_STATE_MAINT, RESTARTER_STATE_NONE, RERR_RESTART, (char *)aux); return; } (void) restarter_instance_update_states(h, rip, rip->ri_i.i_state, RESTARTER_STATE_MAINT, RERR_NONE, (char *)aux); info = startd_zalloc(sizeof (*info)); info->sf_id = rip->ri_id; info->sf_method_type = METHOD_STOP; info->sf_event_type = RERR_RESTART; rip->ri_method_thread = startd_thread_create(method_thread, info); } static void refresh_instance(scf_handle_t *h, restarter_inst_t *rip) { scf_instance_t *inst; scf_snapshot_t *snap; fork_info_t *info; int r; assert(PTHREAD_MUTEX_HELD(&rip->ri_lock)); log_instance(rip, B_TRUE, "Rereading configuration."); log_framework(LOG_DEBUG, "%s: rereading configuration.\n", rip->ri_i.i_fmri); rep_retry: r = libscf_fmri_get_instance(h, rip->ri_i.i_fmri, &inst); switch (r) { case 0: break; case ECONNABORTED: libscf_handle_rebind(h); goto rep_retry; case ENOENT: /* Must have been deleted. */ return; case EINVAL: case ENOTSUP: default: bad_error("libscf_fmri_get_instance", r); } snap = libscf_get_running_snapshot(inst); r = libscf_get_startd_properties(inst, snap, &rip->ri_flags, &rip->ri_utmpx_prefix); switch (r) { case 0: log_framework(LOG_DEBUG, "%s is a %s-style service\n", rip->ri_i.i_fmri, service_style(rip->ri_flags)); break; case ECONNABORTED: scf_instance_destroy(inst); scf_snapshot_destroy(snap); libscf_handle_rebind(h); goto rep_retry; case ECANCELED: case ENOENT: /* Succeed in anticipation of REMOVE_INSTANCE. */ break; default: bad_error("libscf_get_startd_properties", r); } if (instance_started(rip)) { /* Refresh does not change the state. */ (void) restarter_instance_update_states(h, rip, rip->ri_i.i_state, rip->ri_i.i_state, RERR_NONE, NULL); info = startd_zalloc(sizeof (*info)); info->sf_id = rip->ri_id; info->sf_method_type = METHOD_REFRESH; info->sf_event_type = RERR_REFRESH; assert(rip->ri_method_thread == 0); rip->ri_method_thread = startd_thread_create(method_thread, info); } scf_snapshot_destroy(snap); scf_instance_destroy(inst); } const char *event_names[] = { "INVALID", "ADD_INSTANCE", "REMOVE_INSTANCE", "ENABLE", "DISABLE", "ADMIN_DEGRADED", "ADMIN_REFRESH", "ADMIN_RESTART", "ADMIN_MAINT_OFF", "ADMIN_MAINT_ON", "ADMIN_MAINT_ON_IMMEDIATE", "STOP", "START", "DEPENDENCY_CYCLE", "INVALID_DEPENDENCY", "ADMIN_DISABLE" }; /* * void *restarter_process_events() * * Called in a separate thread to process the events on an instance's * queue. Empties the queue completely, and tries to keep the thread * around for a little while after the queue is empty to save on * startup costs. */ static void * restarter_process_events(void *arg) { scf_handle_t *h; restarter_instance_qentry_t *event; restarter_inst_t *rip; char *fmri = (char *)arg; struct timespec to; assert(fmri != NULL); h = libscf_handle_create_bound_loop(); /* grab the queue lock */ rip = inst_lookup_queue(fmri); if (rip == NULL) goto out; again: while ((event = uu_list_first(rip->ri_queue)) != NULL) { restarter_inst_t *inst; /* drop the queue lock */ MUTEX_UNLOCK(&rip->ri_queue_lock); /* * Grab the inst lock -- this waits until any outstanding * method finishes running. */ inst = inst_lookup_by_name(fmri); if (inst == NULL) { /* Getting deleted in the middle isn't an error. */ goto cont; } assert(instance_in_transition(inst) == 0); /* process the event */ switch (event->riq_type) { case RESTARTER_EVENT_TYPE_ENABLE: case RESTARTER_EVENT_TYPE_DISABLE: case RESTARTER_EVENT_TYPE_ADMIN_DISABLE: (void) enable_inst(h, inst, event->riq_type); break; case RESTARTER_EVENT_TYPE_REMOVE_INSTANCE: restarter_delete_inst(inst); inst = NULL; goto cont; case RESTARTER_EVENT_TYPE_STOP: (void) stop_instance(h, inst, RSTOP_DEPENDENCY); break; case RESTARTER_EVENT_TYPE_START: start_instance(h, inst); break; case RESTARTER_EVENT_TYPE_DEPENDENCY_CYCLE: maintain_instance(h, inst, 0, "dependency_cycle"); break; case RESTARTER_EVENT_TYPE_INVALID_DEPENDENCY: maintain_instance(h, inst, 0, "invalid_dependency"); break; case RESTARTER_EVENT_TYPE_ADMIN_MAINT_ON: maintain_instance(h, inst, 0, "administrative_request"); break; case RESTARTER_EVENT_TYPE_ADMIN_MAINT_ON_IMMEDIATE: maintain_instance(h, inst, 1, "administrative_request"); break; case RESTARTER_EVENT_TYPE_ADMIN_MAINT_OFF: unmaintain_instance(h, inst, RUNMAINT_CLEAR); break; case RESTARTER_EVENT_TYPE_ADMIN_REFRESH: refresh_instance(h, inst); break; case RESTARTER_EVENT_TYPE_ADMIN_DEGRADED: log_framework(LOG_WARNING, "Restarter: " "%s command (for %s) unimplemented.\n", event_names[event->riq_type], inst->ri_i.i_fmri); break; case RESTARTER_EVENT_TYPE_ADMIN_RESTART: if (!instance_started(inst)) { log_framework(LOG_DEBUG, "Restarter: " "Not restarting %s; not running.\n", inst->ri_i.i_fmri); } else { /* * Stop the instance. If it can be restarted, * the graph engine will send a new event. */ (void) stop_instance(h, inst, RSTOP_RESTART); } break; case RESTARTER_EVENT_TYPE_ADD_INSTANCE: default: #ifndef NDEBUG uu_warn("%s:%d: Bad restarter event %d. " "Aborting.\n", __FILE__, __LINE__, event->riq_type); #endif abort(); } assert(inst != NULL); MUTEX_UNLOCK(&inst->ri_lock); cont: /* grab the queue lock */ rip = inst_lookup_queue(fmri); if (rip == NULL) goto out; /* delete the event */ uu_list_remove(rip->ri_queue, event); startd_free(event, sizeof (restarter_instance_qentry_t)); } assert(rip != NULL); /* * Try to preserve the thread for a little while for future use. */ to.tv_sec = 3; to.tv_nsec = 0; (void) pthread_cond_reltimedwait_np(&rip->ri_queue_cv, &rip->ri_queue_lock, &to); if (uu_list_first(rip->ri_queue) != NULL) goto again; rip->ri_queue_thread = 0; MUTEX_UNLOCK(&rip->ri_queue_lock); out: (void) scf_handle_unbind(h); scf_handle_destroy(h); free(fmri); return (NULL); } static int is_admin_event(restarter_event_type_t t) { switch (t) { case RESTARTER_EVENT_TYPE_ADMIN_MAINT_ON: case RESTARTER_EVENT_TYPE_ADMIN_MAINT_ON_IMMEDIATE: case RESTARTER_EVENT_TYPE_ADMIN_MAINT_OFF: case RESTARTER_EVENT_TYPE_ADMIN_REFRESH: case RESTARTER_EVENT_TYPE_ADMIN_DEGRADED: case RESTARTER_EVENT_TYPE_ADMIN_RESTART: return (1); default: return (0); } } static void restarter_queue_event(restarter_inst_t *ri, restarter_protocol_event_t *e) { restarter_instance_qentry_t *qe; int r; assert(PTHREAD_MUTEX_HELD(&ri->ri_queue_lock)); assert(!PTHREAD_MUTEX_HELD(&ri->ri_lock)); qe = startd_zalloc(sizeof (restarter_instance_qentry_t)); qe->riq_type = e->rpe_type; uu_list_node_init(qe, &qe->riq_link, restarter_queue_pool); r = uu_list_insert_before(ri->ri_queue, NULL, qe); assert(r == 0); } /* * void *restarter_event_thread() * * Handle incoming graph events by placing them on a per-instance * queue. We can't lock the main part of the instance structure, so * just modify the seprarately locked event queue portion. */ /*ARGSUSED*/ static void * restarter_event_thread(void *unused) { scf_handle_t *h; /* * This is a new thread, and thus, gets its own handle * to the repository. */ h = libscf_handle_create_bound_loop(); MUTEX_LOCK(&ru->restarter_update_lock); /*CONSTCOND*/ while (1) { restarter_protocol_event_t *e; while (ru->restarter_update_wakeup == 0) (void) pthread_cond_wait(&ru->restarter_update_cv, &ru->restarter_update_lock); ru->restarter_update_wakeup = 0; while ((e = restarter_event_dequeue()) != NULL) { restarter_inst_t *rip; char *fmri; MUTEX_UNLOCK(&ru->restarter_update_lock); /* * ADD_INSTANCE is special: there's likely no * instance structure yet, so we need to handle the * addition synchronously. */ switch (e->rpe_type) { case RESTARTER_EVENT_TYPE_ADD_INSTANCE: if (restarter_insert_inst(h, e->rpe_inst) != 0) log_error(LOG_INFO, "Restarter: " "Could not add %s.\n", e->rpe_inst); MUTEX_LOCK(&st->st_load_lock); if (--st->st_load_instances == 0) (void) pthread_cond_broadcast( &st->st_load_cv); MUTEX_UNLOCK(&st->st_load_lock); goto nolookup; } /* * Lookup the instance, locking only the event queue. * Can't grab ri_lock here because it might be held * by a long-running method. */ rip = inst_lookup_queue(e->rpe_inst); if (rip == NULL) { log_error(LOG_INFO, "Restarter: " "Ignoring %s command for unknown service " "%s.\n", event_names[e->rpe_type], e->rpe_inst); goto nolookup; } /* Keep ADMIN events from filling up the queue. */ if (is_admin_event(e->rpe_type) && uu_list_numnodes(rip->ri_queue) > RINST_QUEUE_THRESHOLD) { MUTEX_UNLOCK(&rip->ri_queue_lock); log_instance(rip, B_TRUE, "Instance event " "queue overflow. Dropping administrative " "request."); log_framework(LOG_DEBUG, "%s: Instance event " "queue overflow. Dropping administrative " "request.\n", rip->ri_i.i_fmri); goto nolookup; } /* Now add the event to the instance queue. */ restarter_queue_event(rip, e); if (rip->ri_queue_thread == 0) { /* * Start a thread if one isn't already * running. */ fmri = safe_strdup(e->rpe_inst); rip->ri_queue_thread = startd_thread_create( restarter_process_events, (void *)fmri); } else { /* * Signal the existing thread that there's * a new event. */ (void) pthread_cond_broadcast( &rip->ri_queue_cv); } MUTEX_UNLOCK(&rip->ri_queue_lock); nolookup: restarter_event_release(e); MUTEX_LOCK(&ru->restarter_update_lock); } } /* * Unreachable for now -- there's currently no graceful cleanup * called on exit(). */ (void) scf_handle_unbind(h); scf_handle_destroy(h); return (NULL); } static restarter_inst_t * contract_to_inst(ctid_t ctid) { restarter_inst_t *inst; int id; id = lookup_inst_by_contract(ctid); if (id == -1) return (NULL); inst = inst_lookup_by_id(id); if (inst != NULL) { /* * Since ri_lock isn't held by the contract id lookup, this * instance may have been restarted and now be in a new * contract, making the old contract no longer valid for this * instance. */ if (ctid != inst->ri_i.i_primary_ctid) { MUTEX_UNLOCK(&inst->ri_lock); inst = NULL; } } return (inst); } /* * void contract_action() * Take action on contract events. */ static void contract_action(scf_handle_t *h, restarter_inst_t *inst, ctid_t id, uint32_t type) { const char *fmri = inst->ri_i.i_fmri; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); /* * If startd has stopped this contract, there is no need to * stop it again. */ if (inst->ri_i.i_primary_ctid > 0 && inst->ri_i.i_primary_ctid_stopped) return; if ((type & (CT_PR_EV_EMPTY | CT_PR_EV_CORE | CT_PR_EV_SIGNAL | CT_PR_EV_HWERR)) == 0) { /* * There shouldn't be other events, since that's not how we set * the terms. Thus, just log an error and drive on. */ log_framework(LOG_NOTICE, "%s: contract %ld received unexpected critical event " "(%d)\n", fmri, id, type); return; } assert(instance_in_transition(inst) == 0); if (instance_is_wait_style(inst)) { /* * We ignore all events; if they impact the * process we're monitoring, then the * wait_thread will stop the instance. */ log_framework(LOG_DEBUG, "%s: ignoring contract event on wait-style service\n", fmri); } else { /* * A CT_PR_EV_EMPTY event is an RSTOP_EXIT request. */ switch (type) { case CT_PR_EV_EMPTY: (void) stop_instance(h, inst, RSTOP_EXIT); break; case CT_PR_EV_CORE: (void) stop_instance(h, inst, RSTOP_CORE); break; case CT_PR_EV_SIGNAL: (void) stop_instance(h, inst, RSTOP_SIGNAL); break; case CT_PR_EV_HWERR: (void) stop_instance(h, inst, RSTOP_HWERR); break; } } } /* * void *restarter_contract_event_thread(void *) * Listens to the process contract bundle for critical events, taking action * on events from contracts we know we are responsible for. */ /*ARGSUSED*/ static void * restarter_contracts_event_thread(void *unused) { int fd, err; scf_handle_t *local_handle; /* * Await graph load completion. That is, stop here, until we've scanned * the repository for contract - instance associations. */ MUTEX_LOCK(&st->st_load_lock); while (!(st->st_load_complete && st->st_load_instances == 0)) (void) pthread_cond_wait(&st->st_load_cv, &st->st_load_lock); MUTEX_UNLOCK(&st->st_load_lock); /* * This is a new thread, and thus, gets its own handle * to the repository. */ if ((local_handle = libscf_handle_create_bound(SCF_VERSION)) == NULL) uu_die("Unable to bind a new repository handle: %s\n", scf_strerror(scf_error())); fd = open64(CTFS_ROOT "/process/pbundle", O_RDONLY); if (fd == -1) uu_die("process bundle open failed"); /* * Make sure we get all events (including those generated by configd * before this thread was started). */ err = ct_event_reset(fd); assert(err == 0); for (;;) { int efd, sfd; ct_evthdl_t ev; uint32_t type; ctevid_t evid; ct_stathdl_t status; ctid_t ctid; restarter_inst_t *inst; uint64_t cookie; if (err = ct_event_read_critical(fd, &ev)) { log_error(LOG_WARNING, "Error reading next contract event: %s", strerror(err)); continue; } evid = ct_event_get_evid(ev); ctid = ct_event_get_ctid(ev); type = ct_event_get_type(ev); /* Fetch cookie. */ if ((sfd = contract_open(ctid, "process", "status", O_RDONLY)) < 0) { ct_event_free(ev); continue; } if (err = ct_status_read(sfd, CTD_COMMON, &status)) { log_framework(LOG_WARNING, "Could not get status for " "contract %ld: %s\n", ctid, strerror(err)); startd_close(sfd); ct_event_free(ev); continue; } cookie = ct_status_get_cookie(status); ct_status_free(status); startd_close(sfd); /* * svc.configd(1M) restart handling performed by the * fork_configd_thread. We don't acknowledge, as that thread * will do so. */ if (cookie == CONFIGD_COOKIE) { ct_event_free(ev); continue; } inst = contract_to_inst(ctid); if (inst == NULL) { /* * This can happen if we receive an EMPTY * event for an abandoned contract. */ log_framework(LOG_DEBUG, "Received event %d for unknown contract id " "%ld\n", type, ctid); } else { log_framework(LOG_DEBUG, "Received event %d for contract id " "%ld (%s)\n", type, ctid, inst->ri_i.i_fmri); contract_action(local_handle, inst, ctid, type); MUTEX_UNLOCK(&inst->ri_lock); } efd = contract_open(ct_event_get_ctid(ev), "process", "ctl", O_WRONLY); if (efd != -1) { (void) ct_ctl_ack(efd, evid); startd_close(efd); } ct_event_free(ev); } /*NOTREACHED*/ return (NULL); } /* * Timeout queue, processed by restarter_timeouts_event_thread(). */ timeout_queue_t *timeouts; static uu_list_pool_t *timeout_pool; typedef struct timeout_update { pthread_mutex_t tu_lock; pthread_cond_t tu_cv; int tu_wakeup; } timeout_update_t; timeout_update_t *tu; static const char *timeout_ovr_svcs[] = { "svc:/system/manifest-import:default", "svc:/network/initial:default", "svc:/network/service:default", "svc:/system/rmtmpfiles:default", "svc:/network/loopback:default", "svc:/network/physical:default", "svc:/system/device/local:default", "svc:/system/metainit:default", "svc:/system/filesystem/usr:default", "svc:/system/filesystem/minimal:default", "svc:/system/filesystem/local:default", NULL }; int is_timeout_ovr(restarter_inst_t *inst) { int i; for (i = 0; timeout_ovr_svcs[i] != NULL; ++i) { if (strcmp(inst->ri_i.i_fmri, timeout_ovr_svcs[i]) == 0) { log_instance(inst, B_TRUE, "Timeout override by " "svc.startd. Using infinite timeout"); return (1); } } return (0); } /*ARGSUSED*/ static int timeout_compare(const void *lc_arg, const void *rc_arg, void *private) { hrtime_t t1 = ((const timeout_entry_t *)lc_arg)->te_timeout; hrtime_t t2 = ((const timeout_entry_t *)rc_arg)->te_timeout; if (t1 > t2) return (1); else if (t1 < t2) return (-1); return (0); } void timeout_init() { timeouts = startd_zalloc(sizeof (timeout_queue_t)); (void) pthread_mutex_init(&timeouts->tq_lock, &mutex_attrs); timeout_pool = startd_list_pool_create("timeouts", sizeof (timeout_entry_t), offsetof(timeout_entry_t, te_link), timeout_compare, UU_LIST_POOL_DEBUG); assert(timeout_pool != NULL); timeouts->tq_list = startd_list_create(timeout_pool, timeouts, UU_LIST_SORTED); assert(timeouts->tq_list != NULL); tu = startd_zalloc(sizeof (timeout_update_t)); (void) pthread_cond_init(&tu->tu_cv, NULL); (void) pthread_mutex_init(&tu->tu_lock, &mutex_attrs); } void timeout_insert(restarter_inst_t *inst, ctid_t cid, uint64_t timeout_sec) { hrtime_t now, timeout; timeout_entry_t *entry; uu_list_index_t idx; assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); now = gethrtime(); /* * If we overflow LLONG_MAX, we're never timing out anyways, so * just return. */ if (timeout_sec >= (LLONG_MAX - now) / 1000000000LL) { log_instance(inst, B_TRUE, "timeout_seconds too large, " "treating as infinite."); return; } /* hrtime is in nanoseconds. Convert timeout_sec. */ timeout = now + (timeout_sec * 1000000000LL); entry = startd_alloc(sizeof (timeout_entry_t)); entry->te_timeout = timeout; entry->te_ctid = cid; entry->te_fmri = safe_strdup(inst->ri_i.i_fmri); entry->te_logstem = safe_strdup(inst->ri_logstem); entry->te_fired = 0; /* Insert the calculated timeout time onto the queue. */ MUTEX_LOCK(&timeouts->tq_lock); (void) uu_list_find(timeouts->tq_list, entry, NULL, &idx); uu_list_node_init(entry, &entry->te_link, timeout_pool); uu_list_insert(timeouts->tq_list, entry, idx); MUTEX_UNLOCK(&timeouts->tq_lock); assert(inst->ri_timeout == NULL); inst->ri_timeout = entry; MUTEX_LOCK(&tu->tu_lock); tu->tu_wakeup = 1; (void) pthread_cond_broadcast(&tu->tu_cv); MUTEX_UNLOCK(&tu->tu_lock); } void timeout_remove(restarter_inst_t *inst, ctid_t cid) { assert(PTHREAD_MUTEX_HELD(&inst->ri_lock)); if (inst->ri_timeout == NULL) return; assert(inst->ri_timeout->te_ctid == cid); MUTEX_LOCK(&timeouts->tq_lock); uu_list_remove(timeouts->tq_list, inst->ri_timeout); MUTEX_UNLOCK(&timeouts->tq_lock); free(inst->ri_timeout->te_fmri); free(inst->ri_timeout->te_logstem); startd_free(inst->ri_timeout, sizeof (timeout_entry_t)); inst->ri_timeout = NULL; } static int timeout_now() { timeout_entry_t *e; hrtime_t now; int ret; now = gethrtime(); /* * Walk through the (sorted) timeouts list. While the timeout * at the head of the list is <= the current time, kill the * method. */ MUTEX_LOCK(&timeouts->tq_lock); for (e = uu_list_first(timeouts->tq_list); e != NULL && e->te_timeout <= now; e = uu_list_next(timeouts->tq_list, e)) { log_framework(LOG_WARNING, "%s: Method or service exit timed " "out. Killing contract %ld.\n", e->te_fmri, e->te_ctid); log_instance_fmri(e->te_fmri, e->te_logstem, B_TRUE, "Method or service exit timed out. Killing contract %ld", e->te_ctid); e->te_fired = 1; (void) contract_kill(e->te_ctid, SIGKILL, e->te_fmri); } if (uu_list_numnodes(timeouts->tq_list) > 0) ret = 0; else ret = -1; MUTEX_UNLOCK(&timeouts->tq_lock); return (ret); } /* * void *restarter_timeouts_event_thread(void *) * Responsible for monitoring the method timeouts. This thread must * be started before any methods are called. */ /*ARGSUSED*/ static void * restarter_timeouts_event_thread(void *unused) { /* * Timeouts are entered on a priority queue, which is processed by * this thread. As timeouts are specified in seconds, we'll do * the necessary processing every second, as long as the queue * is not empty. */ /*CONSTCOND*/ while (1) { /* * As long as the timeout list isn't empty, process it * every second. */ if (timeout_now() == 0) { (void) sleep(1); continue; } /* The list is empty, wait until we have more timeouts. */ MUTEX_LOCK(&tu->tu_lock); while (tu->tu_wakeup == 0) (void) pthread_cond_wait(&tu->tu_cv, &tu->tu_lock); tu->tu_wakeup = 0; MUTEX_UNLOCK(&tu->tu_lock); } return (NULL); } void restarter_start() { (void) startd_thread_create(restarter_timeouts_event_thread, NULL); (void) startd_thread_create(restarter_event_thread, NULL); (void) startd_thread_create(restarter_contracts_event_thread, NULL); (void) startd_thread_create(wait_thread, NULL); } void restarter_init() { restarter_instance_pool = startd_list_pool_create("restarter_instances", sizeof (restarter_inst_t), offsetof(restarter_inst_t, ri_link), restarter_instance_compare, UU_LIST_POOL_DEBUG); (void) memset(&instance_list, 0, sizeof (instance_list)); (void) pthread_mutex_init(&instance_list.ril_lock, &mutex_attrs); instance_list.ril_instance_list = startd_list_create( restarter_instance_pool, &instance_list, UU_LIST_SORTED); restarter_queue_pool = startd_list_pool_create( "restarter_instance_queue", sizeof (restarter_instance_qentry_t), offsetof(restarter_instance_qentry_t, riq_link), NULL, UU_LIST_POOL_DEBUG); contract_list_pool = startd_list_pool_create( "contract_list", sizeof (contract_entry_t), offsetof(contract_entry_t, ce_link), NULL, UU_LIST_POOL_DEBUG); contract_hash_init(); log_framework(LOG_DEBUG, "Initialized restarter\n"); }