/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * transition.c - Graph State Machine * * The graph state machine is implemented here, with a typical approach * of a function per state. Separating the implementation allows more * clarity into the actions taken on notification of state change, as well * as a place for future expansion including hooks for configurable actions. * All functions are called with dgraph_lock held. * * The start action for this state machine is not explicit. The states * (ONLINE and DEGRADED) which need to know when they're entering the state * due to a daemon restart implement this understanding by checking for * transition from uninitialized. In the future, this would likely be better * as an explicit start action instead of relying on an overloaded transition. * * All gt_enter functions use the same set of return codes. * 0 success * ECONNABORTED repository connection aborted */ #include "startd.h" static int gt_running(restarter_instance_state_t state) { if (state == RESTARTER_STATE_ONLINE || state == RESTARTER_STATE_DEGRADED) return (1); return (0); } static int gt_enter_uninit(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { int err; scf_instance_t *inst; /* Initialize instance by refreshing it. */ err = libscf_fmri_get_instance(h, v->gv_name, &inst); switch (err) { case 0: break; case ECONNABORTED: return (ECONNABORTED); case ENOENT: return (0); case EINVAL: case ENOTSUP: default: bad_error("libscf_fmri_get_instance", err); } err = refresh_vertex(v, inst); if (err == 0) graph_enable_by_vertex(v, v->gv_flags & GV_ENABLED, 0); scf_instance_destroy(inst); /* If the service was running, propagate a stop event. */ if (gt_running(old_state)) { log_framework(LOG_DEBUG, "Propagating stop of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_STOP, rerr); } graph_transition_sulogin(RESTARTER_STATE_UNINIT, old_state); return (0); } /* ARGSUSED */ static int gt_enter_maint(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { /* * If the service was running, propagate a stop event. If the * service was not running the maintenance transition may satisfy * optional dependencies and should be propagated to determine * whether new dependents are satisfiable. */ if (gt_running(old_state)) { log_framework(LOG_DEBUG, "Propagating maintenance (stop) of " "%s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_STOP, rerr); } else { log_framework(LOG_DEBUG, "Propagating maintenance of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_SAT, rerr); } graph_transition_sulogin(RESTARTER_STATE_MAINT, old_state); return (0); } /* ARGSUSED */ static int gt_enter_offline(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { /* * If the instance should be enabled, see if we can start it. * Otherwise send a disable command. */ if (v->gv_flags & GV_ENABLED) { graph_start_if_satisfied(v); } else { if (gt_running(old_state) && v->gv_post_disable_f) v->gv_post_disable_f(); vertex_send_event(v, RESTARTER_EVENT_TYPE_DISABLE); } /* * If the service was running, propagate a stop event. If the * service was not running the offline transition may satisfy * optional dependencies and should be propagated to determine * whether new dependents are satisfiable. */ if (gt_running(old_state)) { log_framework(LOG_DEBUG, "Propagating stop of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_STOP, rerr); } else { log_framework(LOG_DEBUG, "Propagating offline of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_SAT, rerr); } graph_transition_sulogin(RESTARTER_STATE_OFFLINE, old_state); return (0); } /* ARGSUSED */ static int gt_enter_disabled(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { /* * If the instance should be disabled, no problem. Otherwise, * send an enable command, which should result in the instance * moving to OFFLINE. */ if (v->gv_flags & GV_ENABLED) { vertex_send_event(v, RESTARTER_EVENT_TYPE_ENABLE); } else if (gt_running(old_state) && v->gv_post_disable_f) { v->gv_post_disable_f(); } /* * If the service was running, propagate this as a stop. If the * service was not running the disabled transition may satisfy * optional dependencies and should be propagated to determine * whether new dependents are satisfiable. */ if (gt_running(old_state)) { log_framework(LOG_DEBUG, "Propagating stop of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_STOP, rerr); } else { log_framework(LOG_DEBUG, "Propagating disable of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_SAT, rerr); } graph_transition_sulogin(RESTARTER_STATE_DISABLED, old_state); return (0); } static int gt_internal_online_or_degraded(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { int r; /* * If the instance has just come up, update the start * snapshot. */ if (gt_running(old_state) == 0) { /* * Don't fire if we're just recovering state * after a restart. */ if (old_state != RESTARTER_STATE_UNINIT && v->gv_post_online_f) v->gv_post_online_f(); r = libscf_snapshots_poststart(h, v->gv_name, B_TRUE); switch (r) { case 0: case ENOENT: /* * If ENOENT, the instance must have been * deleted. Pretend we were successful since * we should get a delete event later. */ break; case ECONNABORTED: return (ECONNABORTED); case EACCES: case ENOTSUP: default: bad_error("libscf_snapshots_poststart", r); } } if (!(v->gv_flags & GV_ENABLED)) vertex_send_event(v, RESTARTER_EVENT_TYPE_DISABLE); if (gt_running(old_state) == 0) { log_framework(LOG_DEBUG, "Propagating start of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_START, rerr); } else if (rerr == RERR_REFRESH) { /* For refresh we'll get a message sans state change */ log_framework(LOG_DEBUG, "Propagating refresh of %s.\n", v->gv_name); graph_transition_propagate(v, PROPAGATE_STOP, rerr); } return (0); } static int gt_enter_online(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { int r; r = gt_internal_online_or_degraded(h, v, old_state, rerr); if (r != 0) return (r); graph_transition_sulogin(RESTARTER_STATE_ONLINE, old_state); return (0); } static int gt_enter_degraded(scf_handle_t *h, graph_vertex_t *v, restarter_instance_state_t old_state, restarter_error_t rerr) { int r; r = gt_internal_online_or_degraded(h, v, old_state, rerr); if (r != 0) return (r); graph_transition_sulogin(RESTARTER_STATE_DEGRADED, old_state); return (0); } /* * gt_transition() implements the state transition for the graph * state machine. It can return: * 0 success * ECONNABORTED repository connection aborted * * v->gv_state should be set to the state we're transitioning to before * calling this function. */ int gt_transition(scf_handle_t *h, graph_vertex_t *v, restarter_error_t rerr, restarter_instance_state_t old_state) { int err; int lost_repository = 0; /* * If there's a common set of work to be done on exit from the * old_state, include it as a separate set of functions here. For * now there's no such work, so there are no gt_exit functions. */ err = vertex_subgraph_dependencies_shutdown(h, v, old_state); switch (err) { case 0: break; case ECONNABORTED: lost_repository = 1; break; default: bad_error("vertex_subgraph_dependencies_shutdown", err); } /* * Now call the appropriate gt_enter function for the new state. */ switch (v->gv_state) { case RESTARTER_STATE_UNINIT: err = gt_enter_uninit(h, v, old_state, rerr); break; case RESTARTER_STATE_DISABLED: err = gt_enter_disabled(h, v, old_state, rerr); break; case RESTARTER_STATE_OFFLINE: err = gt_enter_offline(h, v, old_state, rerr); break; case RESTARTER_STATE_ONLINE: err = gt_enter_online(h, v, old_state, rerr); break; case RESTARTER_STATE_DEGRADED: err = gt_enter_degraded(h, v, old_state, rerr); break; case RESTARTER_STATE_MAINT: err = gt_enter_maint(h, v, old_state, rerr); break; default: /* Shouldn't be in an invalid state. */ #ifndef NDEBUG uu_warn("%s:%d: Invalid state %d.\n", __FILE__, __LINE__, v->gv_state); #endif abort(); } switch (err) { case 0: break; case ECONNABORTED: lost_repository = 1; break; default: #ifndef NDEBUG uu_warn("%s:%d: " "gt_enter_%s() failed with unexpected error %d.\n", __FILE__, __LINE__, instance_state_str[v->gv_state], err); #endif abort(); } return (lost_repository ? ECONNABORTED : 0); }