/* * 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 (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2011 Joyent Inc. */ /* * method.c - method execution functions * * This file contains the routines needed to run a method: a fork(2)-exec(2) * invocation monitored using either the contract filesystem or waitpid(2). * (Plain fork1(2) support is provided in fork.c.) * * Contract Transfer * When we restart a service, we want to transfer any contracts that the old * service's contract inherited. This means that (a) we must not abandon the * old contract when the service dies and (b) we must write the id of the old * contract into the terms of the new contract. There should be limits to * (a), though, since we don't want to keep the contract around forever. To * this end we'll say that services in the offline state may have a contract * to be transfered and services in the disabled or maintenance states cannot. * This means that when a service transitions from online (or degraded) to * offline, the contract should be preserved, and when the service transitions * from offline to online (i.e., the start method), we'll transfer inherited * contracts. */ #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 #include #include #include "startd.h" #define SBIN_SH "/sbin/sh" /* * Used to tell if contracts are in the process of being * stored into the svc.startd internal hash table. */ volatile uint16_t storing_contract = 0; /* * Mapping from restart_on method-type to contract events. Must correspond to * enum method_restart_t. */ static uint_t method_events[] = { /* METHOD_RESTART_ALL */ CT_PR_EV_HWERR | CT_PR_EV_SIGNAL | CT_PR_EV_CORE | CT_PR_EV_EMPTY, /* METHOD_RESTART_EXTERNAL_FAULT */ CT_PR_EV_HWERR | CT_PR_EV_SIGNAL, /* METHOD_RESTART_ANY_FAULT */ CT_PR_EV_HWERR | CT_PR_EV_SIGNAL | CT_PR_EV_CORE }; /* * method_record_start(restarter_inst_t *) * Record a service start for rate limiting. Place the current time * in the circular array of instance starts. */ static void method_record_start(restarter_inst_t *inst) { int index = inst->ri_start_index++ % RINST_START_TIMES; inst->ri_start_time[index] = gethrtime(); } /* * method_rate_critical(restarter_inst_t *) * Return true if the average start interval is less than the permitted * interval. The implicit interval defaults to RINST_FAILURE_RATE_NS and * RINST_START_TIMES but may be overridden with the svc properties * startd/critical_failure_count and startd/critical_failure_period * which represent the number of failures to consider and the amount of * time in seconds in which that number may occur, respectively. Note that * this time is measured as of the transition to 'enabled' rather than wall * clock time. * Implicit success if insufficient measurements for an average exist. */ int method_rate_critical(restarter_inst_t *inst) { hrtime_t critical_failure_period; uint_t critical_failure_count = RINST_START_TIMES; uint_t n = inst->ri_start_index; hrtime_t avg_ns = 0; uint64_t scf_fr, scf_st; scf_propvec_t *prop = NULL; scf_propvec_t restart_critical[] = { { "critical_failure_period", NULL, SCF_TYPE_INTEGER, NULL, 0 }, { "critical_failure_count", NULL, SCF_TYPE_INTEGER, NULL, 0 }, { NULL } }; if (instance_is_wait_style(inst)) critical_failure_period = RINST_WT_SVC_FAILURE_RATE_NS; else critical_failure_period = RINST_FAILURE_RATE_NS; restart_critical[0].pv_ptr = &scf_fr; restart_critical[1].pv_ptr = &scf_st; if (scf_read_propvec(inst->ri_i.i_fmri, "startd", B_TRUE, restart_critical, &prop) != SCF_FAILED) { /* * critical_failure_period is expressed * in seconds but tracked in ns */ critical_failure_period = (hrtime_t)scf_fr * NANOSEC; critical_failure_count = (uint_t)scf_st; } if (inst->ri_start_index < critical_failure_count) return (0); avg_ns = (inst->ri_start_time[(n - 1) % critical_failure_count] - inst->ri_start_time[n % critical_failure_count]) / (critical_failure_count - 1); return (avg_ns < critical_failure_period); } /* * int method_is_transient() * Determine if the method for the given instance is transient, * from a contract perspective. Return 1 if it is, and 0 if it isn't. */ static int method_is_transient(restarter_inst_t *inst, int type) { if (instance_is_transient_style(inst) || type != METHOD_START) return (1); else return (0); } /* * void method_store_contract() * Store the newly created contract id into local structures and * the repository. If the repository connection is broken it is rebound. */ static void method_store_contract(restarter_inst_t *inst, int type, ctid_t *cid) { int r; boolean_t primary; if (errno = contract_latest(cid)) uu_die("%s: Couldn't get new contract's id", inst->ri_i.i_fmri); primary = !method_is_transient(inst, type); if (!primary) { if (inst->ri_i.i_transient_ctid != 0) { log_framework(LOG_INFO, "%s: transient ctid expected to be 0 but " "was set to %ld\n", inst->ri_i.i_fmri, inst->ri_i.i_transient_ctid); } inst->ri_i.i_transient_ctid = *cid; } else { if (inst->ri_i.i_primary_ctid != 0) { /* * There was an old contract that we transferred. * Remove it. */ method_remove_contract(inst, B_TRUE, B_FALSE); } if (inst->ri_i.i_primary_ctid != 0) { log_framework(LOG_INFO, "%s: primary ctid expected to be 0 but " "was set to %ld\n", inst->ri_i.i_fmri, inst->ri_i.i_primary_ctid); } inst->ri_i.i_primary_ctid = *cid; inst->ri_i.i_primary_ctid_stopped = 0; log_framework(LOG_DEBUG, "Storing primary contract %ld for " "%s.\n", *cid, inst->ri_i.i_fmri); contract_hash_store(*cid, inst->ri_id); } again: if (inst->ri_mi_deleted) return; r = restarter_store_contract(inst->ri_m_inst, *cid, primary ? RESTARTER_CONTRACT_PRIMARY : RESTARTER_CONTRACT_TRANSIENT); switch (r) { case 0: break; case ECANCELED: inst->ri_mi_deleted = B_TRUE; break; case ECONNABORTED: libscf_handle_rebind(scf_instance_handle(inst->ri_m_inst)); /* FALLTHROUGH */ case EBADF: libscf_reget_instance(inst); goto again; case ENOMEM: case EPERM: case EACCES: case EROFS: uu_die("%s: Couldn't store contract id %ld", inst->ri_i.i_fmri, *cid); /* NOTREACHED */ case EINVAL: default: bad_error("restarter_store_contract", r); } } /* * void method_remove_contract() * Remove any non-permanent contracts from internal structures and * the repository, then abandon them. * Returns * 0 - success * ECANCELED - inst was deleted from the repository * * If the repository connection was broken, it is rebound. */ void method_remove_contract(restarter_inst_t *inst, boolean_t primary, boolean_t abandon) { ctid_t * const ctidp = primary ? &inst->ri_i.i_primary_ctid : &inst->ri_i.i_transient_ctid; int r; assert(*ctidp != 0); log_framework(LOG_DEBUG, "Removing %s contract %lu for %s.\n", primary ? "primary" : "transient", *ctidp, inst->ri_i.i_fmri); if (abandon) contract_abandon(*ctidp); again: if (inst->ri_mi_deleted) { r = ECANCELED; goto out; } r = restarter_remove_contract(inst->ri_m_inst, *ctidp, primary ? RESTARTER_CONTRACT_PRIMARY : RESTARTER_CONTRACT_TRANSIENT); switch (r) { case 0: break; case ECANCELED: inst->ri_mi_deleted = B_TRUE; break; case ECONNABORTED: libscf_handle_rebind(scf_instance_handle(inst->ri_m_inst)); /* FALLTHROUGH */ case EBADF: libscf_reget_instance(inst); goto again; case ENOMEM: case EPERM: case EACCES: case EROFS: log_error(LOG_INFO, "%s: Couldn't remove contract id %ld: " "%s.\n", inst->ri_i.i_fmri, *ctidp, strerror(r)); break; case EINVAL: default: bad_error("restarter_remove_contract", r); } out: if (primary) contract_hash_remove(*ctidp); *ctidp = 0; } static const char *method_names[] = { "start", "stop", "refresh" }; /* * int method_ready_contract(restarter_inst_t *, int, method_restart_t, int) * * Activate a contract template for the type method of inst. type, * restart_on, and cte_mask dictate the critical events term of the contract. * Returns * 0 - success * ECANCELED - inst has been deleted from the repository */ static int method_ready_contract(restarter_inst_t *inst, int type, method_restart_t restart_on, uint_t cte_mask) { int tmpl, err, istrans, iswait, ret; uint_t cevents, fevents; /* * Correctly supporting wait-style services is tricky without * rearchitecting startd to cope with multiple event sources * simultaneously trying to stop an instance. Until a better * solution is implemented, we avoid this problem for * wait-style services by making contract events fatal and * letting the wait code alone handle stopping the service. */ iswait = instance_is_wait_style(inst); istrans = method_is_transient(inst, type); tmpl = open64(CTFS_ROOT "/process/template", O_RDWR); if (tmpl == -1) uu_die("Could not create contract template"); /* * We assume non-login processes are unlikely to create * multiple process groups, and set CT_PR_PGRPONLY for all * wait-style services' contracts. */ err = ct_pr_tmpl_set_param(tmpl, CT_PR_INHERIT | CT_PR_REGENT | (iswait ? CT_PR_PGRPONLY : 0)); assert(err == 0); if (istrans) { cevents = 0; fevents = 0; } else { assert(restart_on >= 0); assert(restart_on <= METHOD_RESTART_ANY_FAULT); cevents = method_events[restart_on] & ~cte_mask; fevents = iswait ? (method_events[restart_on] & ~cte_mask & CT_PR_ALLFATAL) : 0; } err = ct_tmpl_set_critical(tmpl, cevents); assert(err == 0); err = ct_tmpl_set_informative(tmpl, 0); assert(err == 0); err = ct_pr_tmpl_set_fatal(tmpl, fevents); assert(err == 0); err = ct_tmpl_set_cookie(tmpl, istrans ? METHOD_OTHER_COOKIE : METHOD_START_COOKIE); assert(err == 0); if (type == METHOD_START && inst->ri_i.i_primary_ctid != 0) { ret = ct_pr_tmpl_set_transfer(tmpl, inst->ri_i.i_primary_ctid); switch (ret) { case 0: break; case ENOTEMPTY: /* No contracts for you! */ method_remove_contract(inst, B_TRUE, B_TRUE); if (inst->ri_mi_deleted) { ret = ECANCELED; goto out; } break; case EINVAL: case ESRCH: case EACCES: default: bad_error("ct_pr_tmpl_set_transfer", ret); } } err = ct_pr_tmpl_set_svc_fmri(tmpl, inst->ri_i.i_fmri); assert(err == 0); err = ct_pr_tmpl_set_svc_aux(tmpl, method_names[type]); assert(err == 0); err = ct_tmpl_activate(tmpl); assert(err == 0); ret = 0; out: err = close(tmpl); assert(err == 0); return (ret); } static void exec_method(const restarter_inst_t *inst, int type, const char *method, struct method_context *mcp, uint8_t need_session) { char *cmd; const char *errf; char **nenv; int rsmc_errno = 0; cmd = uu_msprintf("exec %s", method); if (inst->ri_utmpx_prefix[0] != '\0' && inst->ri_utmpx_prefix != NULL) (void) utmpx_mark_init(getpid(), inst->ri_utmpx_prefix); setlog(inst->ri_logstem); log_instance(inst, B_FALSE, "Executing %s method (\"%s\").", method_names[type], method); if (need_session) (void) setpgrp(); /* Set credentials. */ rsmc_errno = restarter_set_method_context(mcp, &errf); if (rsmc_errno != 0) { log_instance(inst, B_FALSE, "svc.startd could not set context for method: "); if (rsmc_errno == -1) { if (strcmp(errf, "core_set_process_path") == 0) { log_instance(inst, B_FALSE, "Could not set corefile path."); } else if (strcmp(errf, "setproject") == 0) { log_instance(inst, B_FALSE, "%s: a resource " "control assignment failed", errf); } else if (strcmp(errf, "pool_set_binding") == 0) { log_instance(inst, B_FALSE, "%s: a system " "error occurred", errf); } else { #ifndef NDEBUG uu_warn("%s:%d: Bad function name \"%s\" for " "error %d from " "restarter_set_method_context().\n", __FILE__, __LINE__, errf, rsmc_errno); #endif abort(); } exit(1); } if (errf != NULL && strcmp(errf, "pool_set_binding") == 0) { switch (rsmc_errno) { case ENOENT: log_instance(inst, B_FALSE, "%s: the pool " "could not be found", errf); break; case EBADF: log_instance(inst, B_FALSE, "%s: the " "configuration is invalid", errf); break; case EINVAL: log_instance(inst, B_FALSE, "%s: pool name " "\"%s\" is invalid", errf, mcp->resource_pool); break; default: #ifndef NDEBUG uu_warn("%s:%d: Bad error %d for function %s " "in restarter_set_method_context().\n", __FILE__, __LINE__, rsmc_errno, errf); #endif abort(); } exit(SMF_EXIT_ERR_CONFIG); } if (errf != NULL && strcmp(errf, "chdir") == 0) { switch (rsmc_errno) { case EACCES: case EFAULT: case EIO: case ELOOP: case ENAMETOOLONG: case ENOENT: case ENOLINK: case ENOTDIR: log_instance(inst, B_FALSE, "%s: %s (\"%s\")", errf, strerror(rsmc_errno), mcp->working_dir); break; default: #ifndef NDEBUG uu_warn("%s:%d: Bad error %d for function %s " "in restarter_set_method_context().\n", __FILE__, __LINE__, rsmc_errno, errf); #endif abort(); } exit(SMF_EXIT_ERR_CONFIG); } if (errf != NULL) { errno = rsmc_errno; perror(errf); switch (rsmc_errno) { case EINVAL: case EPERM: case ENOENT: case ENAMETOOLONG: case ERANGE: case ESRCH: exit(SMF_EXIT_ERR_CONFIG); /* NOTREACHED */ default: exit(1); } } switch (rsmc_errno) { case ENOMEM: log_instance(inst, B_FALSE, "Out of memory."); exit(1); /* NOTREACHED */ case ENOENT: log_instance(inst, B_FALSE, "Missing passwd entry for " "user."); exit(SMF_EXIT_ERR_CONFIG); /* NOTREACHED */ default: #ifndef NDEBUG uu_warn("%s:%d: Bad miscellaneous error %d from " "restarter_set_method_context().\n", __FILE__, __LINE__, rsmc_errno); #endif abort(); } } nenv = set_smf_env(mcp->env, mcp->env_sz, NULL, inst, method_names[type]); log_preexec(); (void) execle(SBIN_SH, SBIN_SH, "-c", cmd, NULL, nenv); exit(10); } static void write_status(restarter_inst_t *inst, const char *mname, int stat) { int r; again: if (inst->ri_mi_deleted) return; r = libscf_write_method_status(inst->ri_m_inst, mname, stat); switch (r) { case 0: break; case ECONNABORTED: libscf_reget_instance(inst); goto again; case ECANCELED: inst->ri_mi_deleted = 1; break; case EPERM: case EACCES: case EROFS: log_framework(LOG_INFO, "Could not write exit status " "for %s method of %s: %s.\n", mname, inst->ri_i.i_fmri, strerror(r)); break; case ENAMETOOLONG: default: bad_error("libscf_write_method_status", r); } } /* * int method_run() * Execute the type method of instp. If it requires a fork(), wait for it * to return and return its exit code in *exit_code. Otherwise set * *exit_code to 0 if the method succeeds & -1 if it fails. If the * repository connection is broken, it is rebound, but inst may not be * reset. * Returns * 0 - success * EINVAL - A correct method or method context couldn't be retrieved. * EIO - Contract kill failed. * EFAULT - Method couldn't be executed successfully. * ELOOP - Retry threshold exceeded. * ECANCELED - inst was deleted from the repository before method was run * ERANGE - Timeout retry threshold exceeded. * EAGAIN - Failed due to external cause, retry. */ int method_run(restarter_inst_t **instp, int type, int *exit_code) { char *method; int ret_status; pid_t pid; method_restart_t restart_on; uint_t cte_mask; uint8_t need_session; scf_handle_t *h; scf_snapshot_t *snap; const char *mname; mc_error_t *m_error; struct method_context *mcp; int result = 0, timeout_fired = 0; int sig, r; boolean_t transient; uint64_t timeout; uint8_t timeout_retry; ctid_t ctid; int ctfd = -1; restarter_inst_t *inst = *instp; int id = inst->ri_id; int forkerr; assert(MUTEX_HELD(&inst->ri_lock)); assert(instance_in_transition(inst)); if (inst->ri_mi_deleted) return (ECANCELED); *exit_code = 0; assert(0 <= type && type <= 2); mname = method_names[type]; if (type == METHOD_START) inst->ri_pre_online_hook(); h = scf_instance_handle(inst->ri_m_inst); snap = scf_snapshot_create(h); if (snap == NULL || scf_instance_get_snapshot(inst->ri_m_inst, "running", snap) != 0) { log_framework(LOG_DEBUG, "Could not get running snapshot for %s. " "Using editing version to run method %s.\n", inst->ri_i.i_fmri, mname); scf_snapshot_destroy(snap); snap = NULL; } /* * After this point, we may be logging to the instance log. * Make sure we've noted where that log is as a property of * the instance. */ r = libscf_note_method_log(inst->ri_m_inst, st->st_log_prefix, inst->ri_logstem); if (r != 0) { log_framework(LOG_WARNING, "%s: couldn't note log location: %s\n", inst->ri_i.i_fmri, strerror(r)); } if ((method = libscf_get_method(h, type, inst, snap, &restart_on, &cte_mask, &need_session, &timeout, &timeout_retry)) == NULL) { if (errno == LIBSCF_PGROUP_ABSENT) { log_framework(LOG_DEBUG, "%s: instance has no method property group '%s'.\n", inst->ri_i.i_fmri, mname); if (type == METHOD_REFRESH) log_instance(inst, B_TRUE, "No '%s' method " "defined. Treating as :true.", mname); else log_instance(inst, B_TRUE, "Method property " "group '%s' is not present.", mname); scf_snapshot_destroy(snap); return (0); } else if (errno == LIBSCF_PROPERTY_ABSENT) { log_framework(LOG_DEBUG, "%s: instance has no '%s/exec' method property.\n", inst->ri_i.i_fmri, mname); log_instance(inst, B_TRUE, "Method property '%s/exec " "is not present.", mname); scf_snapshot_destroy(snap); return (0); } else { log_error(LOG_WARNING, "%s: instance libscf_get_method failed\n", inst->ri_i.i_fmri); scf_snapshot_destroy(snap); return (EINVAL); } } /* open service contract if stopping a non-transient service */ if (type == METHOD_STOP && (!instance_is_transient_style(inst))) { if (inst->ri_i.i_primary_ctid == 0) { /* service is not running, nothing to stop */ log_framework(LOG_DEBUG, "%s: instance has no primary " "contract, no service to stop.\n", inst->ri_i.i_fmri); scf_snapshot_destroy(snap); return (0); } if ((ctfd = contract_open(inst->ri_i.i_primary_ctid, "process", "events", O_RDONLY)) < 0) { result = EFAULT; log_instance(inst, B_TRUE, "Could not open service " "contract %ld. Stop method not run.", inst->ri_i.i_primary_ctid); goto out; } } if (restarter_is_null_method(method)) { log_framework(LOG_DEBUG, "%s: null method succeeds\n", inst->ri_i.i_fmri); log_instance(inst, B_TRUE, "Executing %s method (null).", mname); if (type == METHOD_START) write_status(inst, mname, 0); goto out; } sig = restarter_is_kill_method(method); if (sig >= 0) { if (inst->ri_i.i_primary_ctid == 0) { log_error(LOG_ERR, "%s: :kill with no contract\n", inst->ri_i.i_fmri); log_instance(inst, B_TRUE, "Invalid use of \":kill\" " "as stop method for transient service."); result = EINVAL; goto out; } log_framework(LOG_DEBUG, "%s: :killing contract with signal %d\n", inst->ri_i.i_fmri, sig); log_instance(inst, B_TRUE, "Executing %s method (:kill).", mname); if (contract_kill(inst->ri_i.i_primary_ctid, sig, inst->ri_i.i_fmri) != 0) { result = EIO; goto out; } else goto assured_kill; } log_framework(LOG_DEBUG, "%s: forking to run method %s\n", inst->ri_i.i_fmri, method); m_error = restarter_get_method_context(RESTARTER_METHOD_CONTEXT_VERSION, inst->ri_m_inst, snap, mname, method, &mcp); if (m_error != NULL) { log_instance(inst, B_TRUE, "%s", m_error->msg); restarter_mc_error_destroy(m_error); result = EINVAL; goto out; } r = method_ready_contract(inst, type, restart_on, cte_mask); if (r != 0) { assert(r == ECANCELED); assert(inst->ri_mi_deleted); restarter_free_method_context(mcp); result = ECANCELED; goto out; } /* * Validate safety of method contexts, to save children work. */ if (!restarter_rm_libs_loadable()) log_framework(LOG_DEBUG, "%s: method contexts limited " "to root-accessible libraries\n", inst->ri_i.i_fmri); /* * For wait-style svc, sanity check that method exists to prevent an * infinite loop. */ if (instance_is_wait_style(inst) && type == METHOD_START) { char *pend; struct stat64 sbuf; /* * We need to handle start method strings that have arguments, * such as '/lib/svc/method/console-login %i'. */ if ((pend = strchr(method, ' ')) != NULL) *pend = '\0'; if (*method == '/' && stat64(method, &sbuf) == -1 && errno == ENOENT) { log_instance(inst, B_TRUE, "Missing start method (%s), " "changing state to maintenance.", method); restarter_free_method_context(mcp); result = ENOENT; goto out; } if (pend != NULL) *pend = ' '; } /* * If the service is restarting too quickly, send it to * maintenance. */ if (type == METHOD_START) { method_record_start(inst); if (method_rate_critical(inst) && !instance_is_wait_style(inst)) { log_instance(inst, B_TRUE, "Restarting too quickly, " "changing state to maintenance."); result = ELOOP; restarter_free_method_context(mcp); goto out; } } atomic_add_16(&storing_contract, 1); pid = startd_fork1(&forkerr); if (pid == 0) exec_method(inst, type, method, mcp, need_session); if (pid == -1) { atomic_add_16(&storing_contract, -1); if (forkerr == EAGAIN) result = EAGAIN; else result = EFAULT; log_error(LOG_WARNING, "%s: Couldn't fork to execute method %s: %s\n", inst->ri_i.i_fmri, method, strerror(forkerr)); restarter_free_method_context(mcp); goto out; } /* * Get the contract id, decide whether it is primary or transient, and * stash it in inst & the repository. */ method_store_contract(inst, type, &ctid); atomic_add_16(&storing_contract, -1); restarter_free_method_context(mcp); /* * Similarly for the start method PID. */ if (type == METHOD_START && !inst->ri_mi_deleted) (void) libscf_write_start_pid(inst->ri_m_inst, pid); if (instance_is_wait_style(inst) && type == METHOD_START) { /* Wait style instances don't get timeouts on start methods. */ if (wait_register(pid, inst->ri_i.i_fmri, 1, 0)) { log_error(LOG_WARNING, "%s: couldn't register %ld for wait\n", inst->ri_i.i_fmri, pid); result = EFAULT; goto contract_out; } write_status(inst, mname, 0); } else { int r, err; time_t start_time; time_t end_time; /* * Because on upgrade/live-upgrade we may have no chance * to override faulty timeout values on the way to * manifest import, all services on the path to manifest * import are treated the same as INFINITE timeout services. */ start_time = time(NULL); if (timeout != METHOD_TIMEOUT_INFINITE && !is_timeout_ovr(inst)) timeout_insert(inst, ctid, timeout); else timeout = METHOD_TIMEOUT_INFINITE; /* Unlock the instance while waiting for the method. */ MUTEX_UNLOCK(&inst->ri_lock); do { r = waitpid(pid, &ret_status, NULL); } while (r == -1 && errno == EINTR); if (r == -1) err = errno; /* Re-grab the lock. */ inst = inst_lookup_by_id(id); /* * inst can't be removed, as the removal thread waits * for completion of this one. */ assert(inst != NULL); *instp = inst; if (inst->ri_timeout != NULL && inst->ri_timeout->te_fired) timeout_fired = 1; timeout_remove(inst, ctid); log_framework(LOG_DEBUG, "%s method for %s exited with status %d.\n", mname, inst->ri_i.i_fmri, WEXITSTATUS(ret_status)); if (r == -1) { log_error(LOG_WARNING, "Couldn't waitpid() for %s method of %s (%s).\n", mname, inst->ri_i.i_fmri, strerror(err)); result = EFAULT; goto contract_out; } if (type == METHOD_START) write_status(inst, mname, ret_status); /* return ERANGE if this service doesn't retry on timeout */ if (timeout_fired == 1 && timeout_retry == 0) { result = ERANGE; goto contract_out; } if (!WIFEXITED(ret_status)) { /* * If method didn't exit itself (it was killed by an * external entity, etc.), consider the entire * method_run as failed. */ if (WIFSIGNALED(ret_status)) { char buf[SIG2STR_MAX]; (void) sig2str(WTERMSIG(ret_status), buf); log_error(LOG_WARNING, "%s: Method \"%s\" " "failed due to signal %s.\n", inst->ri_i.i_fmri, method, buf); log_instance(inst, B_TRUE, "Method \"%s\" " "failed due to signal %s.", mname, buf); } else { log_error(LOG_WARNING, "%s: Method \"%s\" " "failed with exit status %d.\n", inst->ri_i.i_fmri, method, WEXITSTATUS(ret_status)); log_instance(inst, B_TRUE, "Method \"%s\" " "failed with exit status %d.", mname, WEXITSTATUS(ret_status)); } result = EAGAIN; goto contract_out; } *exit_code = WEXITSTATUS(ret_status); if (*exit_code != 0) { log_error(LOG_WARNING, "%s: Method \"%s\" failed with exit status %d.\n", inst->ri_i.i_fmri, method, WEXITSTATUS(ret_status)); } log_instance(inst, B_TRUE, "Method \"%s\" exited with status " "%d.", mname, *exit_code); if (*exit_code != 0) goto contract_out; end_time = time(NULL); /* Give service contract remaining seconds to empty */ if (timeout != METHOD_TIMEOUT_INFINITE) timeout -= (end_time - start_time); } assured_kill: /* * For stop methods, assure that the service contract has emptied * before returning. */ if (type == METHOD_STOP && (!instance_is_transient_style(inst)) && !(contract_is_empty(inst->ri_i.i_primary_ctid))) { int times = 0; if (timeout != METHOD_TIMEOUT_INFINITE) timeout_insert(inst, inst->ri_i.i_primary_ctid, timeout); for (;;) { /* * Check frequently at first, then back off. This * keeps startd from idling while shutting down. */ if (times < 20) { (void) poll(NULL, 0, 5); times++; } else { (void) poll(NULL, 0, 100); } if (contract_is_empty(inst->ri_i.i_primary_ctid)) break; } if (timeout != METHOD_TIMEOUT_INFINITE) if (inst->ri_timeout->te_fired) result = EFAULT; timeout_remove(inst, inst->ri_i.i_primary_ctid); } contract_out: /* Abandon contracts for transient methods & methods that fail. */ transient = method_is_transient(inst, type); if ((transient || *exit_code != 0 || result != 0) && (restarter_is_kill_method(method) < 0)) method_remove_contract(inst, !transient, B_TRUE); out: if (ctfd >= 0) (void) close(ctfd); scf_snapshot_destroy(snap); free(method); return (result); } /* * The method thread executes a service method to effect a state transition. * The next_state of info->sf_id should be non-_NONE on entrance, and it will * be _NONE on exit (state will either be what next_state was (on success), or * it will be _MAINT (on error)). * * There are six classes of methods to consider: start & other (stop, refresh) * for each of "normal" services, wait services, and transient services. For * each, the method must be fetched from the repository & executed. fork()ed * methods must be waited on, except for the start method of wait services * (which must be registered with the wait subsystem via wait_register()). If * the method succeeded (returned 0), then for start methods its contract * should be recorded as the primary contract for the service. For other * methods, it should be abandoned. If the method fails, then depending on * the failure, either the method should be reexecuted or the service should * be put into maintenance. Either way the contract should be abandoned. */ void * method_thread(void *arg) { fork_info_t *info = arg; restarter_inst_t *inst; scf_handle_t *local_handle; scf_instance_t *s_inst = NULL; int r, exit_code; boolean_t retryable; restarter_str_t reason; assert(0 <= info->sf_method_type && info->sf_method_type <= 2); /* Get (and lock) the restarter_inst_t. */ inst = inst_lookup_by_id(info->sf_id); assert(inst->ri_method_thread != 0); assert(instance_in_transition(inst) == 1); /* * We cannot leave this function with inst in transition, because * protocol.c withholds messages for inst otherwise. */ log_framework(LOG_DEBUG, "method_thread() running %s method for %s.\n", method_names[info->sf_method_type], inst->ri_i.i_fmri); local_handle = libscf_handle_create_bound_loop(); rebind_retry: /* get scf_instance_t */ switch (r = libscf_fmri_get_instance(local_handle, inst->ri_i.i_fmri, &s_inst)) { case 0: break; case ECONNABORTED: libscf_handle_rebind(local_handle); goto rebind_retry; case ENOENT: /* * It's not there, but we need to call this so protocol.c * doesn't think it's in transition anymore. */ (void) restarter_instance_update_states(local_handle, inst, inst->ri_i.i_state, RESTARTER_STATE_NONE, RERR_NONE, restarter_str_none); goto out; case EINVAL: case ENOTSUP: default: bad_error("libscf_fmri_get_instance", r); } inst->ri_m_inst = s_inst; inst->ri_mi_deleted = B_FALSE; retry: if (info->sf_method_type == METHOD_START) log_transition(inst, START_REQUESTED); r = method_run(&inst, info->sf_method_type, &exit_code); if (r == 0 && exit_code == 0) { /* Success! */ assert(inst->ri_i.i_next_state != RESTARTER_STATE_NONE); /* * When a stop method succeeds, remove the primary contract of * the service, unless we're going to offline, in which case * retain the contract so we can transfer inherited contracts to * the replacement service. */ if (info->sf_method_type == METHOD_STOP && inst->ri_i.i_primary_ctid != 0) { if (inst->ri_i.i_next_state == RESTARTER_STATE_OFFLINE) inst->ri_i.i_primary_ctid_stopped = 1; else method_remove_contract(inst, B_TRUE, B_TRUE); } /* * We don't care whether the handle was rebound because this is * the last thing we do with it. */ (void) restarter_instance_update_states(local_handle, inst, inst->ri_i.i_next_state, RESTARTER_STATE_NONE, info->sf_event_type, info->sf_reason); (void) update_fault_count(inst, FAULT_COUNT_RESET); goto out; } /* Failure. Retry or go to maintenance. */ if (r != 0 && r != EAGAIN) { retryable = B_FALSE; } else { switch (exit_code) { case SMF_EXIT_ERR_CONFIG: case SMF_EXIT_ERR_NOSMF: case SMF_EXIT_ERR_PERM: case SMF_EXIT_ERR_FATAL: retryable = B_FALSE; break; default: retryable = B_TRUE; } } if (retryable && update_fault_count(inst, FAULT_COUNT_INCR) != 1) goto retry; /* maintenance */ if (r == ELOOP) log_transition(inst, START_FAILED_REPEATEDLY); else if (r == ERANGE) log_transition(inst, START_FAILED_TIMEOUT_FATAL); else if (exit_code == SMF_EXIT_ERR_CONFIG) log_transition(inst, START_FAILED_CONFIGURATION); else if (exit_code == SMF_EXIT_ERR_FATAL) log_transition(inst, START_FAILED_FATAL); else log_transition(inst, START_FAILED_OTHER); if (r == ELOOP) { reason = restarter_str_restarting_too_quickly; } else if (retryable) { reason = restarter_str_fault_threshold_reached; } else { reason = restarter_str_method_failed; } (void) restarter_instance_update_states(local_handle, inst, RESTARTER_STATE_MAINT, RESTARTER_STATE_NONE, RERR_FAULT, reason); if (!method_is_transient(inst, info->sf_method_type) && inst->ri_i.i_primary_ctid != 0) method_remove_contract(inst, B_TRUE, B_TRUE); out: inst->ri_method_thread = 0; /* * Unlock the mutex after broadcasting to avoid a race condition * with restarter_delete_inst() when the 'inst' structure is freed. */ (void) pthread_cond_broadcast(&inst->ri_method_cv); MUTEX_UNLOCK(&inst->ri_lock); scf_instance_destroy(s_inst); scf_handle_destroy(local_handle); startd_free(info, sizeof (fork_info_t)); return (NULL); }