diff --git a/daemons/pacemakerd/pcmkd_subdaemons.c b/daemons/pacemakerd/pcmkd_subdaemons.c index 114436967c..3b08eccb37 100644 --- a/daemons/pacemakerd/pcmkd_subdaemons.c +++ b/daemons/pacemakerd/pcmkd_subdaemons.c @@ -1,890 +1,888 @@ /* * Copyright 2010-2022 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU General Public License version 2 * or later (GPLv2+) WITHOUT ANY WARRANTY. */ #include #include "pacemakerd.h" #include #include #include #include #include #include #include #include #include #include #include typedef struct pcmk_child_s { pid_t pid; int respawn_count; bool respawn; const char *name; const char *uid; const char *command; const char *endpoint; /* IPC server name */ bool needs_cluster; int check_count; /* Anything below here will be dynamically initialized */ bool needs_retry; bool active_before_startup; } pcmk_child_t; #define PCMK_PROCESS_CHECK_INTERVAL 1 #define PCMK_PROCESS_CHECK_RETRIES 5 #define SHUTDOWN_ESCALATION_PERIOD 180000 /* 3m */ /* Index into the array below */ #define PCMK_CHILD_CONTROLD 5 static pcmk_child_t pcmk_children[] = { { 0, 0, true, "pacemaker-based", CRM_DAEMON_USER, CRM_DAEMON_DIR "/pacemaker-based", PCMK__SERVER_BASED_RO, true }, { 0, 0, true, "pacemaker-fenced", NULL, CRM_DAEMON_DIR "/pacemaker-fenced", "stonith-ng", true }, { 0, 0, true, "pacemaker-execd", NULL, CRM_DAEMON_DIR "/pacemaker-execd", CRM_SYSTEM_LRMD, false }, { 0, 0, true, "pacemaker-attrd", CRM_DAEMON_USER, CRM_DAEMON_DIR "/pacemaker-attrd", T_ATTRD, true }, { 0, 0, true, "pacemaker-schedulerd", CRM_DAEMON_USER, CRM_DAEMON_DIR "/pacemaker-schedulerd", CRM_SYSTEM_PENGINE, false }, { 0, 0, true, "pacemaker-controld", CRM_DAEMON_USER, CRM_DAEMON_DIR "/pacemaker-controld", CRM_SYSTEM_CRMD, true }, }; static char *opts_default[] = { NULL, NULL }; static char *opts_vgrind[] = { NULL, NULL, NULL, NULL, NULL }; crm_trigger_t *shutdown_trigger = NULL; crm_trigger_t *startup_trigger = NULL; time_t subdaemon_check_progress = 0; +// Whether we need root group access to talk to cluster layer +static bool need_root_group = true; + /* When contacted via pacemakerd-api by a client having sbd in * the name we assume it is sbd-daemon which wants to know * if pacemakerd shutdown gracefully. * Thus when everything is shutdown properly pacemakerd * waits till it has reported the graceful completion of * shutdown to sbd and just when sbd-client closes the * connection we can assume that the report has arrived * properly so that pacemakerd can finally exit. * Following two variables are used to track that handshake. */ unsigned int shutdown_complete_state_reported_to = 0; gboolean shutdown_complete_state_reported_client_closed = FALSE; /* state we report when asked via pacemakerd-api status-ping */ const char *pacemakerd_state = XML_PING_ATTR_PACEMAKERDSTATE_INIT; gboolean running_with_sbd = FALSE; /* local copy */ GMainLoop *mainloop = NULL; static gboolean fatal_error = FALSE; static int child_liveness(pcmk_child_t *child); static gboolean escalate_shutdown(gpointer data); static int start_child(pcmk_child_t * child); static void pcmk_child_exit(mainloop_child_t * p, pid_t pid, int core, int signo, int exitcode); static void pcmk_process_exit(pcmk_child_t * child); static gboolean pcmk_shutdown_worker(gpointer user_data); static gboolean stop_child(pcmk_child_t * child, int signal); static bool pcmkd_cluster_connected(void) { #if SUPPORT_COROSYNC return pcmkd_corosync_connected(); #else return true; #endif } static gboolean check_next_subdaemon(gpointer user_data) { static int next_child = 0; int rc = child_liveness(&pcmk_children[next_child]); crm_trace("Checked %s[%lld]: %s (%d)", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0(pcmk_children[next_child].pid), pcmk_rc_str(rc), rc); switch (rc) { case pcmk_rc_ok: pcmk_children[next_child].check_count = 0; subdaemon_check_progress = time(NULL); break; case pcmk_rc_ipc_pid_only: // This case: it was previously OK pcmk_children[next_child].check_count++; if (pcmk_children[next_child].check_count >= PCMK_PROCESS_CHECK_RETRIES) { crm_err("%s[%lld] is unresponsive to ipc after %d tries but " "we found the pid so have it killed that we can restart", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[next_child].pid), pcmk_children[next_child].check_count); stop_child(&pcmk_children[next_child], SIGKILL); if (pcmk_children[next_child].respawn) { /* as long as the respawn-limit isn't reached give it another round of check retries */ pcmk_children[next_child].check_count = 0; } } else { crm_notice("%s[%lld] is unresponsive to ipc after %d tries", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[next_child].pid), pcmk_children[next_child].check_count); if (pcmk_children[next_child].respawn) { /* as long as the respawn-limit isn't reached and we haven't run out of connect retries we account this as progress we are willing to tell to sbd */ subdaemon_check_progress = time(NULL); } } /* go to the next child and see if we can make progress there */ break; case pcmk_rc_ipc_unresponsive: if (!pcmk_children[next_child].respawn) { /* if a subdaemon is down and we don't want it to be restarted this is a success during shutdown. if it isn't restarted anymore due to MAX_RESPAWN it is rather no success. */ if (pcmk_children[next_child].respawn_count <= MAX_RESPAWN) { subdaemon_check_progress = time(NULL); } } if (!pcmk_children[next_child].active_before_startup) { crm_trace("found %s[%lld] missing - signal-handler " "will take care of it", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[next_child].pid)); break; } if (pcmk_children[next_child].respawn) { crm_err("%s[%lld] terminated", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[next_child].pid)); } else { /* orderly shutdown */ crm_notice("%s[%lld] terminated", pcmk_children[next_child].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[next_child].pid)); } pcmk_process_exit(&(pcmk_children[next_child])); break; default: crm_exit(CRM_EX_FATAL); break; /* static analysis/noreturn */ } next_child++; if (next_child >= PCMK__NELEM(pcmk_children)) { next_child = 0; } return G_SOURCE_CONTINUE; } static gboolean escalate_shutdown(gpointer data) { pcmk_child_t *child = data; if (child->pid == PCMK__SPECIAL_PID) { pcmk_process_exit(child); } else if (child->pid != 0) { /* Use SIGSEGV instead of SIGKILL to create a core so we can see what it was up to */ crm_err("Child %s not terminating in a timely manner, forcing", child->name); stop_child(child, SIGSEGV); } return FALSE; } static void pcmk_child_exit(mainloop_child_t * p, pid_t pid, int core, int signo, int exitcode) { pcmk_child_t *child = mainloop_child_userdata(p); const char *name = mainloop_child_name(p); if (signo) { do_crm_log(((signo == SIGKILL)? LOG_WARNING : LOG_ERR), "%s[%d] terminated with signal %d (%s)%s", name, pid, signo, strsignal(signo), (core? " and dumped core" : "")); } else { switch(exitcode) { case CRM_EX_OK: crm_info("%s[%d] exited with status %d (%s)", name, pid, exitcode, crm_exit_str(exitcode)); break; case CRM_EX_FATAL: crm_warn("Shutting cluster down because %s[%d] had fatal failure", name, pid); child->respawn = false; fatal_error = TRUE; pcmk_shutdown(SIGTERM); break; case CRM_EX_PANIC: crm_emerg("%s[%d] instructed the machine to reset", name, pid); child->respawn = false; fatal_error = TRUE; pcmk__panic(__func__); pcmk_shutdown(SIGTERM); break; default: crm_err("%s[%d] exited with status %d (%s)", name, pid, exitcode, crm_exit_str(exitcode)); break; } } pcmk_process_exit(child); } static void pcmk_process_exit(pcmk_child_t * child) { child->pid = 0; child->active_before_startup = false; child->check_count = 0; child->respawn_count += 1; if (child->respawn_count > MAX_RESPAWN) { crm_err("Child respawn count exceeded by %s", child->name); child->respawn = false; } if (shutdown_trigger) { /* resume step-wise shutdown (returned TRUE yields no parallelizing) */ mainloop_set_trigger(shutdown_trigger); } else if (!child->respawn) { /* nothing to do */ } else if (crm_is_true(getenv("PCMK_fail_fast"))) { crm_err("Rebooting system because of %s", child->name); pcmk__panic(__func__); } else if (child_liveness(child) == pcmk_rc_ok) { crm_warn("One-off suppressing strict respawning of a child process %s," " appears alright per %s IPC end-point", child->name, child->endpoint); } else if (child->needs_cluster && !pcmkd_cluster_connected()) { crm_notice("Not respawning %s subdaemon until cluster returns", child->name); child->needs_retry = true; } else { crm_notice("Respawning %s subdaemon after unexpected exit", child->name); start_child(child); } } static gboolean pcmk_shutdown_worker(gpointer user_data) { static int phase = PCMK__NELEM(pcmk_children) - 1; static time_t next_log = 0; if (phase == PCMK__NELEM(pcmk_children) - 1) { crm_notice("Shutting down Pacemaker"); pacemakerd_state = XML_PING_ATTR_PACEMAKERDSTATE_SHUTTINGDOWN; } for (; phase >= 0; phase--) { pcmk_child_t *child = &(pcmk_children[phase]); if (child->pid != 0) { time_t now = time(NULL); if (child->respawn) { if (child->pid == PCMK__SPECIAL_PID) { crm_warn("The process behind %s IPC cannot be" " terminated, so either wait the graceful" " period of %ld s for its native termination" " if it vitally depends on some other daemons" " going down in a controlled way already," " or locate and kill the correct %s process" " on your own; set PCMK_fail_fast=1 to avoid" " this altogether next time around", child->name, (long) SHUTDOWN_ESCALATION_PERIOD, child->command); } next_log = now + 30; child->respawn = false; stop_child(child, SIGTERM); if (phase < PCMK_CHILD_CONTROLD) { g_timeout_add(SHUTDOWN_ESCALATION_PERIOD, escalate_shutdown, child); } } else if (now >= next_log) { next_log = now + 30; crm_notice("Still waiting for %s to terminate " CRM_XS " pid=%lld", child->name, (long long) child->pid); } return TRUE; } /* cleanup */ crm_debug("%s confirmed stopped", child->name); child->pid = 0; } crm_notice("Shutdown complete"); pacemakerd_state = XML_PING_ATTR_PACEMAKERDSTATE_SHUTDOWNCOMPLETE; if (!fatal_error && running_with_sbd && pcmk__get_sbd_sync_resource_startup() && !shutdown_complete_state_reported_client_closed) { crm_notice("Waiting for SBD to pick up shutdown-complete-state."); return TRUE; } { const char *delay = pcmk__env_option(PCMK__ENV_SHUTDOWN_DELAY); if(delay) { sync(); pcmk__sleep_ms(crm_get_msec(delay)); } } g_main_loop_quit(mainloop); if (fatal_error) { crm_notice("Shutting down and staying down after fatal error"); #ifdef SUPPORT_COROSYNC pcmkd_shutdown_corosync(); #endif crm_exit(CRM_EX_FATAL); } return TRUE; } /* TODO once libqb is taught to juggle with IPC end-points carried over as bare file descriptor (https://github.com/ClusterLabs/libqb/issues/325) it shall hand over these descriptors here if/once they are successfully pre-opened in (presumably) child_liveness(), to avoid any remaining room for races */ // \return Standard Pacemaker return code static int start_child(pcmk_child_t * child) { uid_t uid = 0; gid_t gid = 0; gboolean use_valgrind = FALSE; gboolean use_callgrind = FALSE; const char *env_valgrind = getenv("PCMK_valgrind_enabled"); const char *env_callgrind = getenv("PCMK_callgrind_enabled"); child->active_before_startup = false; child->check_count = 0; if (child->command == NULL) { crm_info("Nothing to do for child \"%s\"", child->name); return pcmk_rc_ok; } if (env_callgrind != NULL && crm_is_true(env_callgrind)) { use_callgrind = TRUE; use_valgrind = TRUE; } else if (env_callgrind != NULL && strstr(env_callgrind, child->name)) { use_callgrind = TRUE; use_valgrind = TRUE; } else if (env_valgrind != NULL && crm_is_true(env_valgrind)) { use_valgrind = TRUE; } else if (env_valgrind != NULL && strstr(env_valgrind, child->name)) { use_valgrind = TRUE; } if (use_valgrind && strlen(VALGRIND_BIN) == 0) { crm_warn("Cannot enable valgrind for %s:" " The location of the valgrind binary is unknown", child->name); use_valgrind = FALSE; } if (child->uid) { if (crm_user_lookup(child->uid, &uid, &gid) < 0) { crm_err("Invalid user (%s) for %s: not found", child->uid, child->name); return EACCES; } crm_info("Using uid=%u and group=%u for process %s", uid, gid, child->name); } child->pid = fork(); CRM_ASSERT(child->pid != -1); if (child->pid > 0) { /* parent */ mainloop_child_add(child->pid, 0, child->name, child, pcmk_child_exit); crm_info("Forked child %lld for process %s%s", (long long) child->pid, child->name, use_valgrind ? " (valgrind enabled: " VALGRIND_BIN ")" : ""); return pcmk_rc_ok; } else { /* Start a new session */ (void)setsid(); /* Setup the two alternate arg arrays */ opts_vgrind[0] = strdup(VALGRIND_BIN); if (use_callgrind) { opts_vgrind[1] = strdup("--tool=callgrind"); opts_vgrind[2] = strdup("--callgrind-out-file=" CRM_STATE_DIR "/callgrind.out.%p"); opts_vgrind[3] = strdup(child->command); opts_vgrind[4] = NULL; } else { opts_vgrind[1] = strdup(child->command); opts_vgrind[2] = NULL; opts_vgrind[3] = NULL; opts_vgrind[4] = NULL; } opts_default[0] = strdup(child->command); if(gid) { - // Whether we need root group access to talk to cluster layer - static bool need_root_group = true; - -#if SUPPORT_COROSYNC - if (need_root_group && is_corosync_cluster()) { - /* Corosync clusters can drop root group access, because we set - * uidgid.gid.${gid}=1 via CMAP, which allows these processes to - * connect to corosync. - */ - need_root_group = false; - } -#endif // SUPPORT_COROSYNC - // Drop root group access if not needed if (!need_root_group && (setgid(gid) < 0)) { crm_warn("Could not set group to %d: %s", gid, strerror(errno)); } /* Initialize supplementary groups to only those always granted to * the user, plus haclient (so we can access IPC). */ if (initgroups(child->uid, gid) < 0) { crm_err("Cannot initialize groups for %s: %s (%d)", child->uid, pcmk_rc_str(errno), errno); } } if (uid && setuid(uid) < 0) { crm_warn("Could not set user to %s (id %d): %s", child->uid, uid, strerror(errno)); } pcmk__close_fds_in_child(true); pcmk__open_devnull(O_RDONLY); // stdin (fd 0) pcmk__open_devnull(O_WRONLY); // stdout (fd 1) pcmk__open_devnull(O_WRONLY); // stderr (fd 2) if (use_valgrind) { (void)execvp(VALGRIND_BIN, opts_vgrind); } else { (void)execvp(child->command, opts_default); } crm_crit("Could not execute %s: %s", child->command, strerror(errno)); crm_exit(CRM_EX_FATAL); } return pcmk_rc_ok; /* never reached */ } /*! * \internal * \brief Check the liveness of the child based on IPC name and PID if tracked * * \param[in,out] child Child tracked data * * \return Standard Pacemaker return code * * \note Return codes of particular interest include pcmk_rc_ipc_unresponsive * indicating that no trace of IPC liveness was detected, * pcmk_rc_ipc_unauthorized indicating that the IPC endpoint is blocked by * an unauthorized process, and pcmk_rc_ipc_pid_only indicating that * the child is up by PID but not IPC end-point (possibly starting). * \note This function doesn't modify any of \p child members but \c pid, * and is not actively toying with processes as such but invoking * \c stop_child in one particular case (there's for some reason * a different authentic holder of the IPC end-point). */ static int child_liveness(pcmk_child_t *child) { uid_t cl_uid = 0; gid_t cl_gid = 0; const uid_t root_uid = 0; const gid_t root_gid = 0; const uid_t *ref_uid; const gid_t *ref_gid; int rc = pcmk_rc_ipc_unresponsive; pid_t ipc_pid = 0; if (child->endpoint == NULL && (child->pid <= 0 || child->pid == PCMK__SPECIAL_PID)) { crm_err("Cannot track child %s for missing both API end-point and PID", child->name); rc = EINVAL; // Misuse of function when child is not trackable } else if (child->endpoint != NULL) { int legacy_rc = pcmk_ok; if (child->uid == NULL) { ref_uid = &root_uid; ref_gid = &root_gid; } else { ref_uid = &cl_uid; ref_gid = &cl_gid; legacy_rc = pcmk_daemon_user(&cl_uid, &cl_gid); } if (legacy_rc < 0) { rc = pcmk_legacy2rc(legacy_rc); crm_err("Could not find user and group IDs for user %s: %s " CRM_XS " rc=%d", CRM_DAEMON_USER, pcmk_rc_str(rc), rc); } else { rc = pcmk__ipc_is_authentic_process_active(child->endpoint, *ref_uid, *ref_gid, &ipc_pid); if ((rc == pcmk_rc_ok) || (rc == pcmk_rc_ipc_unresponsive)) { if (child->pid <= 0) { /* If rc is pcmk_rc_ok, ipc_pid is nonzero and this * initializes a new child. If rc is * pcmk_rc_ipc_unresponsive, ipc_pid is zero, and we will * investigate further. */ child->pid = ipc_pid; } else if ((ipc_pid != 0) && (child->pid != ipc_pid)) { /* An unexpected (but authorized) process is responding to * IPC. Investigate further. */ rc = pcmk_rc_ipc_unresponsive; } } } } if (rc == pcmk_rc_ipc_unresponsive) { /* If we get here, a child without IPC is being tracked, no IPC liveness * has been detected, or IPC liveness has been detected with an * unexpected (but authorized) process. This is safe on FreeBSD since * the only change possible from a proper child's PID into "special" PID * of 1 behind more loosely related process. */ int ret = pcmk__pid_active(child->pid, child->name); if (ipc_pid && ((ret != pcmk_rc_ok) || ipc_pid == PCMK__SPECIAL_PID || (pcmk__pid_active(ipc_pid, child->name) == pcmk_rc_ok))) { /* An unexpected (but authorized) process was detected at the IPC * endpoint, and either it is active, or the child we're tracking is * not. */ if (ret == pcmk_rc_ok) { /* The child we're tracking is active. Kill it, and adopt the * detected process. This assumes that our children don't fork * (thus getting a different PID owning the IPC), but rather the * tracking got out of sync because of some means external to * Pacemaker, and adopting the detected process is better than * killing it and possibly having to spawn a new child. */ /* not possessing IPC, afterall (what about corosync CPG?) */ stop_child(child, SIGKILL); } rc = pcmk_rc_ok; child->pid = ipc_pid; } else if (ret == pcmk_rc_ok) { // Our tracked child's PID was found active, but not its IPC rc = pcmk_rc_ipc_pid_only; } else if ((child->pid == 0) && (ret == EINVAL)) { // FreeBSD can return EINVAL rc = pcmk_rc_ipc_unresponsive; } else { switch (ret) { case EACCES: rc = pcmk_rc_ipc_unauthorized; break; case ESRCH: rc = pcmk_rc_ipc_unresponsive; break; default: rc = ret; break; } } } return rc; } /*! * \internal * \brief Initial one-off check of the pre-existing "child" processes * * With "child" process, we mean the subdaemon that defines an API end-point * (all of them do as of the comment) -- the possible complement is skipped * as it is deemed it has no such shared resources to cause conflicts about, * hence it can presumably be started anew without hesitation. * If that won't hold true in the future, the concept of a shared resource * will have to be generalized beyond the API end-point. * * For boundary cases that the "child" is still starting (IPC end-point is yet * to be witnessed), or more rarely (practically FreeBSD only), when there's * a pre-existing "untrackable" authentic process, we give the situation some * time to possibly unfold in the right direction, meaning that said socket * will appear or the unattainable process will disappear per the observable * IPC, respectively. * * \return Standard Pacemaker return code * * \note Since this gets run at the very start, \c respawn_count fields * for particular children get temporarily overloaded with "rounds * of waiting" tracking, restored once we are about to finish with * success (i.e. returning value >=0) and will remain unrestored * otherwise. One way to suppress liveness detection logic for * particular child is to set the said value to a negative number. */ #define WAIT_TRIES 4 /* together with interleaved sleeps, worst case ~ 1s */ int find_and_track_existing_processes(void) { bool wait_in_progress; int rc; size_t i, rounds; for (rounds = 1; rounds <= WAIT_TRIES; rounds++) { wait_in_progress = false; for (i = 0; i < PCMK__NELEM(pcmk_children); i++) { if ((pcmk_children[i].endpoint == NULL) || (pcmk_children[i].respawn_count < 0)) { continue; } rc = child_liveness(&pcmk_children[i]); if (rc == pcmk_rc_ipc_unresponsive) { /* As a speculation, don't give up if there are more rounds to * come for other reasons, but don't artificially wait just * because of this, since we would preferably start ASAP. */ continue; } pcmk_children[i].respawn_count = rounds; switch (rc) { case pcmk_rc_ok: if (pcmk_children[i].pid == PCMK__SPECIAL_PID) { if (crm_is_true(getenv("PCMK_fail_fast"))) { crm_crit("Cannot reliably track pre-existing" " authentic process behind %s IPC on this" " platform and PCMK_fail_fast requested", pcmk_children[i].endpoint); return EOPNOTSUPP; } else if (pcmk_children[i].respawn_count == WAIT_TRIES) { crm_notice("Assuming pre-existing authentic, though" " on this platform untrackable, process" " behind %s IPC is stable (was in %d" " previous samples) so rather than" " bailing out (PCMK_fail_fast not" " requested), we just switch to a less" " optimal IPC liveness monitoring" " (not very suitable for heavy load)", pcmk_children[i].name, WAIT_TRIES - 1); crm_warn("The process behind %s IPC cannot be" " terminated, so the overall shutdown" " will get delayed implicitly (%ld s)," " which serves as a graceful period for" " its native termination if it vitally" " depends on some other daemons going" " down in a controlled way already", pcmk_children[i].name, (long) SHUTDOWN_ESCALATION_PERIOD); } else { wait_in_progress = true; crm_warn("Cannot reliably track pre-existing" " authentic process behind %s IPC on this" " platform, can still disappear in %d" " attempt(s)", pcmk_children[i].endpoint, WAIT_TRIES - pcmk_children[i].respawn_count); continue; } } crm_notice("Tracking existing %s process (pid=%lld)", pcmk_children[i].name, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[i].pid)); pcmk_children[i].respawn_count = -1; /* 0~keep watching */ pcmk_children[i].active_before_startup = true; break; case pcmk_rc_ipc_pid_only: if (pcmk_children[i].respawn_count == WAIT_TRIES) { crm_crit("%s IPC end-point for existing authentic" " process %lld did not (re)appear", pcmk_children[i].endpoint, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[i].pid)); return rc; } wait_in_progress = true; crm_warn("Cannot find %s IPC end-point for existing" " authentic process %lld, can still (re)appear" " in %d attempts (?)", pcmk_children[i].endpoint, (long long) PCMK__SPECIAL_PID_AS_0( pcmk_children[i].pid), WAIT_TRIES - pcmk_children[i].respawn_count); continue; default: crm_crit("Checked liveness of %s: %s " CRM_XS " rc=%d", pcmk_children[i].name, pcmk_rc_str(rc), rc); return rc; } } if (!wait_in_progress) { break; } pcmk__sleep_ms(250); // Wait a bit for changes to possibly happen } for (i = 0; i < PCMK__NELEM(pcmk_children); i++) { pcmk_children[i].respawn_count = 0; /* restore pristine state */ } g_timeout_add_seconds(PCMK_PROCESS_CHECK_INTERVAL, check_next_subdaemon, NULL); return pcmk_rc_ok; } gboolean init_children_processes(void *user_data) { + if (is_corosync_cluster()) { + /* Corosync clusters can drop root group access, because we set + * uidgid.gid.${gid}=1 via CMAP, which allows these processes to connect + * to corosync. + */ + need_root_group = false; + } + /* start any children that have not been detected */ for (int i = 0; i < PCMK__NELEM(pcmk_children); i++) { if (pcmk_children[i].pid != 0) { /* we are already tracking it */ continue; } start_child(&(pcmk_children[i])); } /* From this point on, any daemons being started will be due to * respawning rather than node start. * * This may be useful for the daemons to know */ setenv("PCMK_respawned", "true", 1); pacemakerd_state = XML_PING_ATTR_PACEMAKERDSTATE_RUNNING; return TRUE; } void pcmk_shutdown(int nsig) { if (shutdown_trigger == NULL) { shutdown_trigger = mainloop_add_trigger(G_PRIORITY_HIGH, pcmk_shutdown_worker, NULL); } mainloop_set_trigger(shutdown_trigger); } void restart_cluster_subdaemons(void) { for (int i = 0; i < PCMK__NELEM(pcmk_children); i++) { if (!pcmk_children[i].needs_retry || pcmk_children[i].pid != 0) { continue; } crm_notice("Respawning cluster-based subdaemon: %s", pcmk_children[i].name); if (start_child(&pcmk_children[i])) { pcmk_children[i].needs_retry = false; } } } static gboolean stop_child(pcmk_child_t * child, int signal) { if (signal == 0) { signal = SIGTERM; } /* why to skip PID of 1? - FreeBSD ~ how untrackable process behind IPC is masqueraded as - elsewhere: how "init" task is designated; in particular, in systemd arrangement of socket-based activation, this is pretty real */ if (child->command == NULL || child->pid == PCMK__SPECIAL_PID) { crm_debug("Nothing to do for child \"%s\" (process %lld)", child->name, (long long) PCMK__SPECIAL_PID_AS_0(child->pid)); return TRUE; } if (child->pid <= 0) { crm_trace("Client %s not running", child->name); return TRUE; } errno = 0; if (kill(child->pid, signal) == 0) { crm_notice("Stopping %s "CRM_XS" sent signal %d to process %lld", child->name, signal, (long long) child->pid); } else { crm_err("Could not stop %s (process %lld) with signal %d: %s", child->name, (long long) child->pid, signal, strerror(errno)); } return TRUE; }