diff --git a/crm/crmd/ccm.c b/crm/crmd/ccm.c index 481b60645d..f3aadbd6cd 100644 --- a/crm/crmd/ccm.c +++ b/crm/crmd/ccm.c @@ -1,546 +1,546 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* put these first so that uuid_t is defined without conflicts */ #include #include #include #include #include #include #include #include void oc_ev_special(const oc_ev_t *, oc_ev_class_t , int ); #include #include #include #include #include #include int register_with_ccm(ll_cluster_t *hb_cluster); void msg_ccm_join(const struct ha_msg *msg, void *foo); void crmd_ccm_input_callback(oc_ed_t event, void *cookie, size_t size, const void *data); void ccm_event_detail(const oc_ev_membership_t *oc, oc_ed_t event); gboolean ccm_dispatch(int fd, gpointer user_data); gboolean ghash_node_clfree(gpointer key, gpointer value, gpointer user_data); void ghash_update_cib_node(gpointer key, gpointer value, gpointer user_data); #define CCM_EVENT_DETAIL 1 oc_ev_t *fsa_ev_token; /* A_CCM_CONNECT */ enum crmd_fsa_input do_ccm_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { int ret; /* fd_set rset; */ int fsa_ev_fd; FNIN(); if(action & A_CCM_DISCONNECT){ oc_ev_unregister(fsa_ev_token); } if(action & A_CCM_CONNECT) { cl_log(LOG_INFO, "Registering with CCM"); oc_ev_register(&fsa_ev_token); cl_log(LOG_INFO, "Setting up CCM callbacks"); oc_ev_set_callback(fsa_ev_token, OC_EV_MEMB_CLASS, crmd_ccm_input_callback, NULL); oc_ev_special(fsa_ev_token, OC_EV_MEMB_CLASS, 0/*don't care*/); cl_log(LOG_INFO, "Activating CCM token"); ret = oc_ev_activate(fsa_ev_token, &fsa_ev_fd); if (ret){ cl_log(LOG_INFO, "CCM Activation failed... unregistering"); oc_ev_unregister(fsa_ev_token); return(I_FAIL); } cl_log(LOG_INFO, "CCM Activation passed... all set to go!"); /* FD_ZERO(&rset); */ /* FD_SET(fsa_ev_fd, &rset); */ //GFDSource* G_main_add_fd(G_PRIORITY_LOW, fsa_ev_fd, FALSE, ccm_dispatch, fsa_ev_token, default_ipc_input_destroy); } if(action & ~(A_CCM_CONNECT|A_CCM_DISCONNECT)) { cl_log(LOG_ERR, "Unexpected action %s in %s", fsa_action2string(action), __FUNCTION__); } FNRET(I_NULL); } /* A_CCM_EVENT */ enum crmd_fsa_input do_ccm_event(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input return_input = I_NULL; const oc_ev_membership_t *oc = ((struct ccm_data *)data)->oc; oc_ed_t event = *((struct ccm_data *)data)->event; FNIN(); cl_log(LOG_INFO,"event=%s", event==OC_EV_MS_NEW_MEMBERSHIP?"NEW MEMBERSHIP": event==OC_EV_MS_NOT_PRIMARY?"NOT PRIMARY": event==OC_EV_MS_PRIMARY_RESTORED?"PRIMARY RESTORED": event==OC_EV_MS_EVICTED?"EVICTED": "NO QUORUM MEMBERSHIP"); if(CCM_EVENT_DETAIL) { ccm_event_detail(oc, event); } if (OC_EV_MS_EVICTED == event) { /* get out... NOW! */ return_input = I_SHUTDOWN; } if(return_input == I_SHUTDOWN) { ; /* ignore everything, the new DC will handle it */ } else { /* My understanding is that we will never get both * node leaving *and* node joining callbacks at the * same time. * * This logic would need to change if this is not * the case */ if(oc->m_n_out !=0) { return_input = I_NODE_LEFT; } else if(oc->m_n_in !=0) { /* delay the I_NODE_JOIN until they acknowledge our * DC status and send us their CIB */ return_input = I_NULL; } else { cl_log(LOG_INFO, "So why are we here? What CCM event happened?"); } } FNRET(return_input); } /* A_CCM_UPDATE_CACHE */ /* * Take the opportunity to update the node status in the CIB as well * (but only if we are the DC) */ enum crmd_fsa_input do_ccm_update_cache(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input next_input = I_NULL; int lpc, offset; GHashTable *members = NULL; oc_ed_t event = *((struct ccm_data *)data)->event; const oc_ev_membership_t *oc = ((struct ccm_data *)data)->oc; oc_node_list_t *tmp = NULL, *membership_copy = (oc_node_list_t *) cl_malloc(sizeof(oc_node_list_t)); FNIN(); cl_log(LOG_INFO,"Updating CCM cache after a \"%s\" event.", event==OC_EV_MS_NEW_MEMBERSHIP?"NEW MEMBERSHIP": event==OC_EV_MS_NOT_PRIMARY?"NOT PRIMARY": event==OC_EV_MS_PRIMARY_RESTORED?"PRIMARY RESTORED": event==OC_EV_MS_EVICTED?"EVICTED": "NO QUORUM MEMBERSHIP"); /*--*-- All Member Nodes --*--*/ offset = oc->m_memb_idx; membership_copy->members_size = oc->m_n_member; if(membership_copy->members_size > 0) { membership_copy->members = g_hash_table_new(g_str_hash, g_direct_equal); members = membership_copy->members; for(lpc=0; lpc < membership_copy->members_size; lpc++) { oc_node_t *member = (oc_node_t *)cl_malloc(sizeof(oc_node_t)); member->node_id = oc->m_array[offset+lpc].node_id; member->node_born_on = oc->m_array[offset+lpc].node_born_on; member->node_uname = cl_strdup(oc->m_array[offset+lpc].node_uname); } } else { membership_copy->members = NULL; } /*--*-- New Member Nodes --*--*/ offset = oc->m_in_idx; membership_copy->new_members_size = oc->m_n_in; if(membership_copy->new_members_size > 0) { membership_copy->new_members = g_hash_table_new(g_str_hash, g_direct_equal); members = membership_copy->new_members; for(lpc=0; lpc < membership_copy->new_members_size; lpc++) { oc_node_t *member = (oc_node_t *)cl_malloc(sizeof(oc_node_t)); member->node_id = oc->m_array[offset+lpc].node_id; member->node_born_on = oc->m_array[offset+lpc].node_born_on; member->node_uname = cl_strdup(oc->m_array[offset+lpc].node_uname); g_hash_table_insert(members, member->node_uname, member); } } else { membership_copy->new_members = NULL; } /*--*-- Recently Dead Member Nodes --*--*/ offset = oc->m_out_idx; membership_copy->dead_members_size = oc->m_n_out; if(membership_copy->dead_members_size > 0) { membership_copy->dead_members = g_hash_table_new(g_str_hash, g_direct_equal); members = membership_copy->dead_members; for(lpc=0; lpc < membership_copy->dead_members_size; lpc++) { oc_node_t *member = (oc_node_t *)cl_malloc(sizeof(oc_node_t)); member->node_id = oc->m_array[offset+lpc].node_id; member->node_born_on = oc->m_array[offset+lpc].node_born_on; member->node_uname = cl_strdup(oc->m_array[offset+lpc].node_uname); } } else { membership_copy->dead_members = NULL; } if(AM_I_DC) { // should be sufficient for only the DC to do this free_xml(do_update_cib_nodes(NULL)); } tmp = fsa_membership_copy; fsa_membership_copy = membership_copy; /* Free the old copy */ if(tmp != NULL) { if(tmp->members != NULL) g_hash_table_foreach_remove (tmp->members, ghash_node_clfree, NULL); if(tmp->new_members != NULL) g_hash_table_foreach_remove (tmp->new_members, ghash_node_clfree, NULL); if(tmp->dead_members != NULL) g_hash_table_foreach_remove (tmp->dead_members, ghash_node_clfree, NULL); cl_free(tmp); } FNRET(next_input); } void ccm_event_detail(const oc_ev_membership_t *oc, oc_ed_t event) { int member_id = -1; gboolean member = FALSE; int lpc; int node_list_size; cl_log(LOG_INFO,"trans=%d, nodes=%d, new=%d, lost=%d n_idx=%d, " "new_idx=%d, old_idx=%d", oc->m_instance, oc->m_n_member, oc->m_n_in, oc->m_n_out, oc->m_memb_idx, oc->m_in_idx, oc->m_out_idx); cl_log(LOG_INFO, "NODES IN THE PRIMARY MEMBERSHIP"); node_list_size = oc->m_n_member; for(lpc=0; lpcm_array[oc->m_memb_idx+lpc].node_uname, oc->m_array[oc->m_memb_idx+lpc].node_id, oc->m_array[oc->m_memb_idx+lpc].node_born_on); if(fsa_our_uname != NULL && strcmp(fsa_our_uname, oc->m_array[oc->m_memb_idx+lpc].node_uname)) { member = TRUE; member_id = oc->m_array[oc->m_memb_idx+lpc].node_id; } } if (member == FALSE) { cl_log(LOG_WARNING, "MY NODE IS NOT IN CCM THE MEMBERSHIP LIST"); } else { cl_log(LOG_INFO, "MY NODE ID IS %d", member_id); } cl_log(LOG_INFO, "NEW MEMBERS"); if (oc->m_n_in==0) cl_log(LOG_INFO, "\tNONE"); for(lpc=0; lpcm_n_in; lpc++) { cl_log(LOG_INFO,"\t%s [nodeid=%d, born=%d]", oc->m_array[oc->m_in_idx+lpc].node_uname, oc->m_array[oc->m_in_idx+lpc].node_id, oc->m_array[oc->m_in_idx+lpc].node_born_on); } cl_log(LOG_INFO, "MEMBERS LOST"); if (oc->m_n_out==0) cl_log(LOG_INFO, "\tNONE"); for(lpc=0; lpcm_n_out; lpc++) { cl_log(LOG_INFO,"\t%s [nodeid=%d, born=%d]", oc->m_array[oc->m_out_idx+lpc].node_uname, oc->m_array[oc->m_out_idx+lpc].node_id, oc->m_array[oc->m_out_idx+lpc].node_born_on); if(fsa_our_uname != NULL && strcmp(fsa_our_uname, oc->m_array[oc->m_memb_idx+lpc].node_uname)) { cl_log(LOG_ERR, "We're not part of the cluster anymore"); } } cl_log(LOG_INFO, "-----------------------"); } int register_with_ccm(ll_cluster_t *hb_cluster) { FNRET(0); } gboolean ccm_dispatch(int fd, gpointer user_data) { oc_ev_t *ccm_token = (oc_ev_t*)user_data; oc_ev_handle_event(ccm_token); return TRUE; } void crmd_ccm_input_callback(oc_ed_t event, void *cookie, size_t size, const void *data) { struct ccm_data *event_data = NULL; FNIN(); if(data != NULL) { event_data = (struct ccm_data *) cl_malloc(sizeof(struct ccm_data)); event_data->event = &event; event_data->oc = (const oc_ev_membership_t *)data; s_crmd_fsa(C_CCM_CALLBACK, I_CCM_EVENT, (void*)event_data); event_data->event = NULL; event_data->oc = NULL; cl_free(event_data); } else { cl_log(LOG_INFO, "CCM Callback with NULL data... " "I dont /think/ this is bad"); } oc_ev_callback_done(cookie); FNOUT(); } void msg_ccm_join(const struct ha_msg *msg, void *foo) { FNIN(); cl_log(LOG_INFO, "\n###### Recieved ccm_join message..."); if (msg != NULL) { cl_log(LOG_INFO, "[type=%s]", ha_msg_value(msg, F_TYPE)); cl_log(LOG_INFO, "[orig=%s]", ha_msg_value(msg, F_ORIG)); cl_log(LOG_INFO, "[to=%s]", ha_msg_value(msg, F_TO)); cl_log(LOG_INFO, "[status=%s]", ha_msg_value(msg, F_STATUS)); cl_log(LOG_INFO, "[info=%s]", ha_msg_value(msg, F_COMMENT)); cl_log(LOG_INFO, "[rsc_hold=%s]", ha_msg_value(msg, F_RESOURCES)); cl_log(LOG_INFO, "[stable=%s]", ha_msg_value(msg, F_ISSTABLE)); cl_log(LOG_INFO, "[rtype=%s]", ha_msg_value(msg, F_RTYPE)); cl_log(LOG_INFO, "[ts=%s]", ha_msg_value(msg, F_TIME)); cl_log(LOG_INFO, "[seq=%s]", ha_msg_value(msg, F_SEQ)); cl_log(LOG_INFO, "[generation=%s]", ha_msg_value(msg, F_HBGENERATION)); // cl_log(LOG_INFO, "[=%s]", ha_msg_value(msg, F_)); } FNOUT(); } struct update_data_s { xmlNodePtr updates; const char *state; }; xmlNodePtr do_update_cib_nodes(xmlNodePtr updates) { struct update_data_s update_data; update_data.updates = updates; CRM_DEBUG("Processing the \"down\" list"); update_data.state = "down"; if(fsa_membership_copy->dead_members != NULL) { g_hash_table_foreach(fsa_membership_copy->dead_members, ghash_update_cib_node, &update_data); } CRM_DEBUG("Processing the \"in_ccm (old)\" list"); update_data.state = "in_ccm"; if(fsa_membership_copy->members != NULL) { g_hash_table_foreach(fsa_membership_copy->members, ghash_update_cib_node, &update_data); } CRM_DEBUG("Processing the \"in_ccm (new)\" list"); if(fsa_membership_copy->new_members != NULL) { g_hash_table_foreach(fsa_membership_copy->new_members, ghash_update_cib_node, &update_data); } if(update_data.updates != NULL) { xmlNodePtr fragment = create_cib_fragment(update_data.updates, NULL); send_request(NULL, fragment, CRM_OPERATION_UPDATE, - NULL, CRM_SYSTEM_DCIB); + NULL, CRM_SYSTEM_DCIB, NULL); free_xml(fragment); } return update_data.updates; } void ghash_update_cib_node(gpointer key, gpointer value, gpointer user_data) { xmlNodePtr tmp1 = NULL; const char *node_uname = (const char*)key; struct update_data_s* data = (struct update_data_s*)user_data; CRM_DEBUG("%s processing %s (%s)", __FUNCTION__, node_uname, data->state); if(safe_str_eq(fsa_our_uname, node_uname)) { // dont change ourselves return; } tmp1 = create_node_state(node_uname, data->state, NULL, NULL); if(data->updates == NULL) { data->updates = tmp1; } else { data->updates = xmlAddSibling(data->updates, tmp1); } } gboolean ghash_node_clfree(gpointer key, gpointer value, gpointer user_data) { // value->node_uname is free'd as "key" if(key != NULL) { cl_free(key); } if(value != NULL) { cl_free(value); } return TRUE; } diff --git a/crm/crmd/control.c b/crm/crmd/control.c index 8f2c148d94..a13740b058 100644 --- a/crm/crmd/control.c +++ b/crm/crmd/control.c @@ -1,416 +1,416 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #define PID_FILE WORKING_DIR"/crm.pid" #define DAEMON_LOG LOG_DIR"/crm.log" #define DAEMON_DEBUG LOG_DIR"/crm.debug" gboolean crmd_ha_input_dispatch(int fd, gpointer user_data); void crmd_ha_input_destroy(gpointer user_data); void crm_shutdown(int nsig); GHashTable *ipc_clients = NULL; /* A_HA_CONNECT */ enum crmd_fsa_input do_ha_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { gboolean registered = FALSE; FNIN(); if(action & A_HA_DISCONNECT) { if(fsa_cluster_conn != NULL) { fsa_cluster_conn->llc_ops->signoff(fsa_cluster_conn); } } if(action & A_HA_CONNECT) { if(fsa_cluster_conn == NULL) fsa_cluster_conn = ll_cluster_new("heartbeat"); // make sure we are disconnected first fsa_cluster_conn->llc_ops->signoff(fsa_cluster_conn); registered = register_with_ha(fsa_cluster_conn, crm_system_name, crmd_ha_input_dispatch, crmd_ha_input_callback, crmd_ha_input_destroy); if(registered == FALSE) FNRET(I_FAIL); } if(action & ~(A_HA_CONNECT|A_HA_DISCONNECT)) { cl_log(LOG_ERR, "Unexpected action %s in %s", fsa_action2string(action), __FUNCTION__); } FNRET(I_NULL); } /* A_SHUTDOWN */ enum crmd_fsa_input do_shutdown(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input next_input = I_NULL; enum crmd_fsa_input tmp = I_NULL; FNIN(); /* last attempt to shut these down */ if(is_set(fsa_input_register, R_PE_CONNECTED)) { cl_log(LOG_WARNING, "Last attempt to shutdown the PolicyEngine"); tmp = do_pe_control(A_PE_STOP, cause, cur_state, current_input, data); if(tmp != I_NULL) { next_input = I_ERROR; cl_log(LOG_ERR, "Failed to shutdown the PolicyEngine"); } } if(is_set(fsa_input_register, R_TE_CONNECTED)) { cl_log(LOG_WARNING, "Last attempt to shutdown the Transitioner"); tmp = do_pe_control(A_TE_STOP, cause, cur_state, current_input, data); if(tmp != I_NULL) { next_input = I_ERROR; cl_log(LOG_ERR, "Failed to shutdown the Transitioner"); } } /* TODO: shutdown all remaining resources? */ FNRET(next_input); } /* A_SHUTDOWN_REQ */ enum crmd_fsa_input do_shutdown_req(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input next_input = I_NULL; FNIN(); if(send_request(NULL, NULL, CRM_OPERATION_SHUTDOWN_REQ, - NULL, CRM_SYSTEM_DC) == FALSE){ + NULL, CRM_SYSTEM_DC, NULL) == FALSE){ next_input = I_ERROR; } FNRET(next_input); } gboolean crmd_ha_input_dispatch(int fd, gpointer user_data) { int lpc = 0; ll_cluster_t* hb_cluster = (ll_cluster_t*)user_data; FNIN(); while(hb_cluster->llc_ops->msgready(hb_cluster)) { lpc++; // invoke the callbacks but dont block hb_cluster->llc_ops->rcvmsg(hb_cluster, 0); } if(lpc == 0){ // hey what happened?? cl_log(LOG_ERR, "We were called but no message was ready.\n" "\tLikely the connection to Heartbeat failed, check the logs"); // TODO: feed this back into the FSA FNRET(FALSE); } FNRET(TRUE); } void crmd_ha_input_destroy(gpointer user_data) { cl_log(LOG_INFO, "in my hb_input_destroy"); } /* A_EXIT_0, A_EXIT_1 */ enum crmd_fsa_input do_exit(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); cl_log(LOG_ERR, "Action %s (%.16llx) not supported\n", fsa_action2string(action), action); if(action & A_EXIT_0) { g_main_quit(crmd_mainloop); } else { exit(1); } FNRET(I_NULL); } /* A_STARTUP */ enum crmd_fsa_input do_startup(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { int facility; int was_error = 0; int interval = 1; // seconds between DC heartbeats FNIN(); fsa_input_register = 0; // zero out the regester cl_log(LOG_INFO, "Register PID"); register_pid(PID_FILE, FALSE, crm_shutdown); cl_log_set_logfile(DAEMON_LOG); /* if (crm_debug()) { */ cl_log_set_debugfile(DAEMON_DEBUG); /* cl_log_enable_stderr(FALSE); } */ ipc_clients = g_hash_table_new(&g_str_hash, &g_str_equal); /* change the logging facility to the one used by heartbeat daemon */ fsa_cluster_conn = ll_cluster_new("heartbeat"); cl_log(LOG_INFO, "Switching to Heartbeat logger"); if ((facility = fsa_cluster_conn->llc_ops->get_logfacility( fsa_cluster_conn)) > 0) { cl_log_set_facility(facility); } CRM_DEBUG("Facility: %d", facility); if(was_error == 0) { CRM_DEBUG("Init server comms"); was_error = init_server_ipc_comms(CRM_SYSTEM_CRMD, crmd_client_connect, default_ipc_input_destroy); } if (was_error == 0) { CRM_DEBUG("Finding our node name"); fsa_our_uname = fsa_cluster_conn->llc_ops->get_mynodeid( fsa_cluster_conn); if (fsa_our_uname == NULL) { cl_log(LOG_ERR, "get_mynodeid() failed"); was_error = 1; } cl_log(LOG_INFO, "FSA Hostname: %s", fsa_our_uname); } /* set up the timers */ dc_heartbeat = (fsa_timer_t *)cl_malloc(sizeof(fsa_timer_t)); integration_timer= (fsa_timer_t *)cl_malloc(sizeof(fsa_timer_t)); election_trigger = (fsa_timer_t *)cl_malloc(sizeof(fsa_timer_t)); election_timeout = (fsa_timer_t *)cl_malloc(sizeof(fsa_timer_t)); shutdown_escalation_timmer = (fsa_timer_t *) cl_malloc(sizeof(fsa_timer_t)); interval = interval * 1000; election_trigger->source_id = -1; election_trigger->period_ms = interval*4; election_trigger->fsa_input = I_DC_TIMEOUT; election_trigger->callback = timer_popped; dc_heartbeat->source_id = -1; dc_heartbeat->period_ms = interval; dc_heartbeat->fsa_input = I_NULL; dc_heartbeat->callback = do_dc_heartbeat; election_timeout->source_id = -1; election_timeout->period_ms = interval*6; election_timeout->fsa_input = I_ELECTION_DC; election_timeout->callback = timer_popped; integration_timer->source_id = -1; integration_timer->period_ms = interval*6; integration_timer->fsa_input = I_INTEGRATION_TIMEOUT; integration_timer->callback = timer_popped; shutdown_escalation_timmer->source_id = -1; shutdown_escalation_timmer->period_ms = interval*13; shutdown_escalation_timmer->fsa_input = I_TERMINATE; shutdown_escalation_timmer->callback = timer_popped; /* set up the sub systems */ cib_subsystem = (struct crm_subsystem_s*) cl_malloc(sizeof(struct crm_subsystem_s)); cib_subsystem->pid = 0; cib_subsystem->respawn = 1; cib_subsystem->path = cl_strdup(BIN_DIR); cib_subsystem->name = cl_strdup(CRM_SYSTEM_CIB); cib_subsystem->command = BIN_DIR"/cib"; cib_subsystem->flag = R_CIB_CONNECTED; te_subsystem = (struct crm_subsystem_s*) cl_malloc(sizeof(struct crm_subsystem_s)); te_subsystem->pid = 0; te_subsystem->respawn = 1; te_subsystem->path = cl_strdup(BIN_DIR); te_subsystem->name = cl_strdup(CRM_SYSTEM_TENGINE); te_subsystem->command = BIN_DIR"/tengine"; te_subsystem->flag = R_TE_CONNECTED; pe_subsystem = (struct crm_subsystem_s*) cl_malloc(sizeof(struct crm_subsystem_s)); pe_subsystem->pid = 0; pe_subsystem->respawn = 1; pe_subsystem->path = cl_strdup(BIN_DIR); pe_subsystem->name = cl_strdup(CRM_SYSTEM_PENGINE); pe_subsystem->command = BIN_DIR"/pengine"; pe_subsystem->flag = R_PE_CONNECTED; if(was_error) FNRET(I_FAIL); FNRET(I_NULL); } /* A_STOP */ enum crmd_fsa_input do_stop(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); cl_log(LOG_ERR, "Action %s (%.16llx) not supported\n", fsa_action2string(action), action); FNRET(I_NULL); } /* A_STARTED */ enum crmd_fsa_input do_started(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); clear_bit_inplace(&fsa_input_register, R_STARTING); FNRET(I_NULL); } /* A_RECOVER */ enum crmd_fsa_input do_recover(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); cl_log(LOG_ERR, "Action %s (%.16llx) not supported\n", fsa_action2string(action), action); FNRET(I_SHUTDOWN); } void crm_shutdown(int nsig) { FNIN(); CL_SIGNAL(nsig, crm_shutdown); if (crmd_mainloop != NULL && g_main_is_running(crmd_mainloop)) { if(is_set(fsa_input_register, R_SHUTDOWN)) { CRM_DEBUG("Escalating the shutdown"); s_crmd_fsa(C_SHUTDOWN, I_ERROR, NULL); } else { set_bit_inplace(&fsa_input_register, R_SHUTDOWN); // cant rely on this... startTimer(shutdown_escalation_timmer); s_crmd_fsa(C_SHUTDOWN, I_SHUTDOWN, NULL); } } else { CRM_DEBUG("exit from shutdown"); exit(LSB_EXIT_OK); } FNOUT(); } diff --git a/crm/crmd/crmd_fsa.h b/crm/crmd/crmd_fsa.h index 6ed725193a..925bc43a5d 100644 --- a/crm/crmd/crmd_fsa.h +++ b/crm/crmd/crmd_fsa.h @@ -1,131 +1,132 @@ -/* $Id: crmd_fsa.h,v 1.17 2004/05/17 12:25:59 andrew Exp $ */ +/* $Id: crmd_fsa.h,v 1.18 2004/05/18 14:28:04 andrew Exp $ */ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef XML_CRM_FSA__H #define XML_CRM_FSA__H #include #include #include #include #include #include struct ccm_data { const oc_ev_membership_t *oc; oc_ed_t *event; }; struct oc_node_list_s { int members_size; GHashTable *members; // contents: oc_node_t * int new_members_size; GHashTable *new_members; // contents: oc_node_t * int dead_members_size; GHashTable *dead_members; // contents: oc_node_t * }; /* copy from struct client_child in heartbeat.h * * Plus a couple of other things */ typedef struct oc_node_list_s oc_node_list_t; struct crm_subsystem_s { pid_t pid; /* Process id of child process */ int respawn; /* Respawn it if it dies? */ int respawncount; /* Last time we respawned this command */ int shortrcount; /* How many times has it respawned too fast? */ const char* command; /* What command to run? */ const char* path; /* Path (argv[0])? */ /* extras */ const char* name; IPC_Channel *ipc; /* How can we communicate with it */ long long flag; /* */ }; typedef struct fsa_timer_s fsa_timer_t; struct fsa_timer_s { guint source_id; /* timer source id */ uint period_ms; /* timer period */ enum crmd_fsa_input fsa_input; gboolean (*callback)(gpointer data); }; extern enum crmd_fsa_state s_crmd_fsa(enum crmd_fsa_cause cause, enum crmd_fsa_input initial_input, void *data); extern long long clear_flags(long long actions, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input cur_input); /* Utilities */ extern long long toggle_bit (long long action_list, long long action); extern long long clear_bit (long long action_list, long long action); extern long long set_bit (long long action_list, long long action); extern void toggle_bit_inplace(long long *action_list, long long action); extern void clear_bit_inplace (long long *action_list, long long action); extern void set_bit_inplace (long long *action_list, long long action); extern gboolean is_set(long long action_list, long long action); extern gboolean startTimer(fsa_timer_t *timer); extern gboolean stopTimer(fsa_timer_t *timer); extern gboolean timer_popped(gpointer data); extern gboolean do_dc_heartbeat(gpointer data); /* Global FSA stuff */ extern enum crmd_fsa_state fsa_state; extern oc_node_list_t *fsa_membership_copy; extern ll_cluster_t *fsa_cluster_conn; extern ll_lrm_t *fsa_lrm_conn; extern long long fsa_input_register; extern const char *fsa_our_uname; +extern char *fsa_pe_ref; // the last invocation of the PE extern fsa_timer_t *election_trigger; /* */ extern fsa_timer_t *election_timeout; /* */ extern fsa_timer_t *shutdown_escalation_timmer; /* */ extern fsa_timer_t *dc_heartbeat; extern fsa_timer_t *integration_timer; extern struct crm_subsystem_s *cib_subsystem; extern struct crm_subsystem_s *te_subsystem; extern struct crm_subsystem_s *pe_subsystem; extern void cleanup_subsystem(struct crm_subsystem_s *the_subsystem); extern enum crmd_fsa_input send_cib_status_update(xmlNodePtr update); extern xmlNodePtr create_node_state(const char *node, const char *state, const char *exp_state, xmlNodePtr lrm_data); extern xmlNodePtr do_update_cib_nodes(xmlNodePtr updates); #define AM_I_DC is_set(fsa_input_register, R_THE_DC) #define AM_I_OPERATIONAL (is_set(fsa_input_register, R_STARTING)==FALSE) #include #endif diff --git a/crm/crmd/crmd_messages.h b/crm/crmd/crmd_messages.h index e9b06257a1..858b1b4c35 100644 --- a/crm/crmd/crmd_messages.h +++ b/crm/crmd/crmd_messages.h @@ -1,88 +1,89 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef XML_CRM_MESSAGES__H #define XML_CRM_MESSAGES__H #include #include #include #include struct fsa_message_queue_s { gboolean processed; xmlNodePtr message; struct fsa_message_queue_s *next; }; typedef struct fsa_message_queue_s *fsa_message_queue_t; fsa_message_queue_t put_message(xmlNodePtr new_message); fsa_message_queue_t get_message(void); gboolean is_message(void); extern gboolean relay_message(xmlNodePtr xml_relay_message, gboolean originated_locally); extern void crmd_ha_input_callback(const struct ha_msg* msg, void* private_data); extern gboolean crmd_ipc_input_callback(IPC_Channel *client, gpointer user_data); extern void process_message(xmlNodePtr root_xml_node, gboolean originated_locally, const char *src_node_name); extern gboolean crm_dc_process_message(xmlNodePtr whole_message, xmlNodePtr action, const char *host_from, const char *sys_from, const char *sys_to, const char *op, gboolean dc_mode); extern void send_msg_via_ha(xmlNodePtr action, const char *dest_node); extern void send_msg_via_ipc(xmlNodePtr action, const char *sys); extern gboolean add_pending_outgoing_reply(const char *originating_node_name, const char *crm_msg_reference, const char *sys_to, const char *sys_from); extern gboolean crmd_authorize_message(xmlNodePtr root_xml_node, IPC_Message *client_msg, crmd_client_t *curr_client); extern gboolean send_request(xmlNodePtr msg_options, xmlNodePtr msg_data, const char *operation, const char *host_to, - const char *sys_to); + const char *sys_to, + char **msg_reference); extern gboolean store_request(xmlNodePtr msg_options, xmlNodePtr msg_data, const char *operation, const char *host_to, const char *sys_to); extern enum crmd_fsa_input handle_message(xmlNodePtr stored_msg); extern void lrm_op_callback (lrm_op_t* op); extern void lrm_monitor_callback (lrm_mon_t* monitor); #endif diff --git a/crm/crmd/election.c b/crm/crmd/election.c index 3f77d06c09..ca48bd9d24 100644 --- a/crm/crmd/election.c +++ b/crm/crmd/election.c @@ -1,654 +1,654 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #include #include GHashTable *joined_nodes = NULL; void ghash_count_vote(gpointer key, gpointer value, gpointer user_data); void ghash_send_welcome(gpointer key, gpointer value, gpointer user_data); /* A_ELECTION_VOTE */ enum crmd_fsa_input do_election_vote(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input election_result = I_NULL; FNIN(); /* dont vote if we're in one of these states or wanting to shut down */ switch(cur_state) { case S_RECOVERY: case S_RECOVERY_DC: case S_STOPPING: case S_RELEASE_DC: case S_TERMINATE: FNRET(I_NULL); // log warning break; default: if(is_set(fsa_input_register, R_SHUTDOWN)) { FNRET(I_NULL); // log warning } break; } - send_request(NULL, NULL, CRM_OPERATION_VOTE, NULL, CRM_SYSTEM_CRMD); + send_request(NULL, NULL, CRM_OPERATION_VOTE, NULL, CRM_SYSTEM_CRMD, NULL); FNRET(election_result); } gboolean timer_popped(gpointer data) { fsa_timer_t *timer = (fsa_timer_t *)data; cl_log(LOG_INFO, "#!!#!!# Timer %s just popped!", fsa_input2string(timer->fsa_input)); stopTimer(timer); // dont make it go off again s_crmd_fsa(C_TIMER_POPPED, timer->fsa_input, NULL); return TRUE; } gboolean do_dc_heartbeat(gpointer data) { fsa_timer_t *timer = (fsa_timer_t *)data; // cl_log(LOG_DEBUG, "#!!#!!# Heartbeat timer just popped!"); gboolean was_sent = send_request(NULL, NULL, CRM_OPERATION_HBEAT, - NULL, CRM_SYSTEM_CRMD); + NULL, CRM_SYSTEM_CRMD, NULL); if(was_sent == FALSE) { // this is bad stopTimer(timer); // dont make it go off again s_crmd_fsa(C_HEARTBEAT_FAILED, I_SHUTDOWN, NULL); } return TRUE; } struct election_data_s { const char *winning_uname; unsigned int winning_bornon; }; /* A_ELECTION_COUNT */ enum crmd_fsa_input do_election_count_vote(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { gboolean we_loose = FALSE; xmlNodePtr vote = (xmlNodePtr)data; enum crmd_fsa_input election_result = I_NULL; const char *vote_from = xmlGetProp(vote, XML_ATTR_HOSTFROM); FNIN(); if(vote_from == NULL || strcmp(vote_from, fsa_our_uname) == 0) { // dont count our own vote FNRET(election_result); } if(fsa_membership_copy->members_size < 1) { // if even we are not in the cluster then we should not vote FNRET(I_FAIL); } oc_node_t *our_node = (oc_node_t*) g_hash_table_lookup(fsa_membership_copy->members, fsa_our_uname); oc_node_t *your_node = (oc_node_t*) g_hash_table_lookup(fsa_membership_copy->members, vote_from); #if 0 cl_log(LOG_DEBUG, "%s (bornon=%d), our bornon (%d)", vote_from, our_node->born, my_born); cl_log(LOG_DEBUG, "%s %s %s", fsa_our_uname, strcmp(fsa_our_uname, vote_from) < 0?"<":">=", vote_from); #endif if(your_node->node_born_on < our_node->node_born_on) { cl_log(LOG_DEBUG, "Election fail: born_on"); we_loose = TRUE; } else if(your_node->node_born_on == our_node->node_born_on && strcmp(fsa_our_uname, vote_from) > 0) { cl_log(LOG_DEBUG, "Election fail: uname"); we_loose = TRUE; } else { struct election_data_s election_data; election_data.winning_uname = NULL; election_data.winning_bornon = -1; // maximum integer CRM_DEBUG("We might win... we should vote (possibly again)"); election_result = I_DC_TIMEOUT; // new "default" g_hash_table_foreach(fsa_membership_copy->members, ghash_count_vote, &election_data); cl_log(LOG_DEBUG, "Election winner should be %s (born_on=%d)", election_data.winning_uname, election_data.winning_bornon); if(safe_str_eq(election_data.winning_uname, fsa_our_uname)){ cl_log(LOG_DEBUG, "Election win: lowest born_on and uname"); election_result = I_ELECTION_DC; } } if(we_loose) { if(fsa_input_register & R_THE_DC) { cl_log(LOG_DEBUG, "Give up the DC"); election_result = I_RELEASE_DC; } else { cl_log(LOG_DEBUG, "We werent the DC anyway"); election_result = I_NOT_DC; } } if(we_loose || election_result == I_ELECTION_DC) { // cancel timer, its been decided stopTimer(election_timeout); } FNRET(election_result); } /* A_ELECT_TIMER_START, A_ELECTION_TIMEOUT */ // we won enum crmd_fsa_input do_election_timer_ctrl(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); if(action & A_ELECT_TIMER_START) { CRM_DEBUG("Starting the election timer..."); startTimer(election_timeout); } else if(action & A_ELECT_TIMER_STOP || action & A_ELECTION_TIMEOUT) { CRM_DEBUG("Stopping the election timer..."); stopTimer(election_timeout); } else { cl_log(LOG_ERR, "unexpected action %s", fsa_action2string(action)); } if(action & A_ELECTION_TIMEOUT) { CRM_DEBUG("The election timer went off, we win!"); FNRET(I_ELECTION_DC); } FNRET(I_NULL); } /* A_DC_TIMER_STOP, A_DC_TIMER_START */ enum crmd_fsa_input do_dc_timer_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { gboolean timer_op_ok = TRUE; FNIN(); if(action & A_DC_TIMER_STOP) { timer_op_ok = stopTimer(election_trigger); } /* dont start a timer that wasnt already running */ if(action & A_DC_TIMER_START && timer_op_ok) { startTimer(election_trigger); } FNRET(I_NULL); } /* A_DC_TAKEOVER */ enum crmd_fsa_input do_dc_takeover(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); CRM_DEBUG("################## Taking over the DC ##################"); set_bit_inplace(&fsa_input_register, R_THE_DC); CRM_DEBUG("Am I the DC? %s", AM_I_DC?"yes":"no"); set_bit_inplace(&fsa_input_register, R_JOIN_OK); set_bit_inplace(&fsa_input_register, R_INVOKE_PE); clear_bit_inplace(&fsa_input_register, R_CIB_DONE); clear_bit_inplace(&fsa_input_register, R_HAVE_CIB); startTimer(dc_heartbeat); FNRET(I_NULL); } /* A_DC_RELEASE */ enum crmd_fsa_input do_dc_release(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input result = I_NULL; FNIN(); CRM_DEBUG("################## Releasing the DC ##################"); stopTimer(dc_heartbeat); if(action & A_DC_RELEASE) { clear_bit_inplace(&fsa_input_register, R_THE_DC); /* get a new CIB from the new DC */ clear_bit_inplace(&fsa_input_register, R_HAVE_CIB); } else if (action & A_DC_RELEASED) { if(cur_state == S_STOPPING) { result = I_SHUTDOWN; // necessary? result = I_RELEASE_SUCCESS; } #if 0 else if( are there errors ) { // we cant stay up if not healthy // or perhaps I_ERROR and go to S_RECOVER? result = I_SHUTDOWN; } #endif else result = I_RELEASE_SUCCESS; } else { cl_log(LOG_ERR, "Warning, do_dc_release invoked for action %s", fsa_action2string(action)); } CRM_DEBUG("Am I still the DC? %s", AM_I_DC?"yes":"no"); FNRET(result); } /* A_JOIN_WELCOME, A_JOIN_WELCOME_ALL */ enum crmd_fsa_input do_send_welcome(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { int num_sent = 0; FNIN(); if(action & A_JOIN_WELCOME && data == NULL) { cl_log(LOG_ERR, "Attempt to send welcome message " "without a message to reply to!"); FNRET(I_NULL); } else if(action & A_JOIN_WELCOME) { xmlNodePtr welcome = (xmlNodePtr)data; const char *join_to = xmlGetProp(welcome, XML_ATTR_HOSTFROM); if(join_to != NULL) { /* xmlNodePtr update = create_node_state(new_node, "active", "active", NULL); xmlNodePtr tmp1 = create_cib_fragment(update, NULL); send_request(NULL, tmp1, "update", NULL, CRM_SYSTEM_DCIB); */ send_request(NULL, NULL, CRM_OPERATION_WELCOME, - join_to, CRM_SYSTEM_CRMD); + join_to, CRM_SYSTEM_CRMD, NULL); } FNRET(I_NULL); } // welcome everyone... /* Give everyone a chance to join before invoking the PolicyEngine */ stopTimer(integration_timer); startTimer(integration_timer); if(joined_nodes != NULL) { g_hash_table_destroy(joined_nodes); joined_nodes = g_hash_table_new(&g_str_hash, &g_str_equal); } // reset everyones status back to down or in_ccm in the CIB xmlNodePtr update = NULL; xmlNodePtr cib_copy = get_cib_copy(); xmlNodePtr tmp1 = get_object_root(XML_CIB_TAG_STATUS, cib_copy); xmlNodePtr node_entry = tmp1->children; // catch any nodes that are active in the CIB but not in the CCM list while(node_entry != NULL){ const char *state = "down"; const char *node_id = xmlGetProp(node_entry, "id"); gpointer a_node = g_hash_table_lookup(fsa_membership_copy->members, node_id); node_entry = node_entry->next; if(a_node != NULL || (safe_str_eq(fsa_our_uname, node_id))) { // handled by do_update_cib_nodes() continue; } tmp1 = create_node_state(node_id, state, NULL, NULL); if(update == NULL) { update = tmp1; } else { update = xmlAddSibling(update, tmp1); } } // now process the CCM data free_xml(do_update_cib_nodes(update)); free_xml(cib_copy); g_hash_table_foreach(fsa_membership_copy->members, ghash_send_welcome, &num_sent); /* No point hanging around in S_INTEGRATION if we're the only ones here! */ if(num_sent == 0) { // that was the last outstanding join ack) cl_log(LOG_INFO,"That was the last outstanding join ack"); FNRET(I_SUCCESS); } else { cl_log(LOG_DEBUG, "Still waiting on %d outstanding join acks", num_sent); //dont waste time by invoking the pe yet; } FNRET(I_NULL); } xmlNodePtr create_node_state(const char *node, const char *state, const char *exp_state, xmlNodePtr lrm_data) { xmlNodePtr node_state = create_xml_node(NULL, XML_CIB_TAG_STATE); set_xml_property_copy(node_state, XML_ATTR_ID, node); set_xml_property_copy(node_state, "state", state); if(exp_state != NULL) { set_xml_property_copy(node_state, "exp_state", exp_state); } if(lrm_data != NULL) { // set_xml_property_copy(data, "replace_lrm", "true"); add_node_copy(node_state, lrm_data); } xml_message_debug(node_state, "created"); return node_state; } /* A_JOIN_ACK */ enum crmd_fsa_input do_ack_welcome(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { xmlNodePtr welcome = (xmlNodePtr)data; xmlNodePtr cib_copy; xmlNodePtr tmp1; xmlNodePtr tmp2; FNIN(); #if 0 if(we are sick) { log error ; FNRET(I_NULL); } #endif cib_copy = get_cib_copy(); tmp1 = get_object_root(XML_CIB_TAG_STATUS, cib_copy); tmp2 = create_cib_fragment(tmp1, NULL); send_ha_reply(fsa_cluster_conn, welcome, tmp2); free_xml(tmp2); free_xml(cib_copy); FNRET(I_NULL); } /* A_ANNOUNCE */ enum crmd_fsa_input do_announce(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); /* Once we hear from the DC, we can stop the timer * * This timer was started either on startup or when a node * left the CCM list */ /* dont announce if we're in one of these states */ switch(cur_state) { case S_RECOVERY: case S_RECOVERY_DC: case S_RELEASE_DC: case S_TERMINATE: FNRET(I_NULL); // log warning break; default: break; } if(AM_I_OPERATIONAL) { send_request(NULL, NULL, CRM_OPERATION_ANNOUNCE, - NULL, CRM_SYSTEM_DC); + NULL, CRM_SYSTEM_DC, NULL); } else { /* Delay announce until we have finished local startup */ FNRET(I_NULL); } FNRET(I_NULL); } /* A_JOIN_PROCESS_ACK */ enum crmd_fsa_input do_process_welcome_ack(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { xmlNodePtr tmp1; xmlNodePtr cib_fragment; xmlNodePtr join_ack = (xmlNodePtr)data; int size = 0; gboolean is_a_member = FALSE; const char *join_from = xmlGetProp(join_ack, XML_ATTR_HOSTFROM); FNIN(); gpointer join_node = g_hash_table_lookup(fsa_membership_copy->members, join_from); if(join_node != NULL) { is_a_member = TRUE; } cib_fragment = find_xml_node(join_ack, XML_TAG_FRAGMENT); if(is_a_member == FALSE) { cl_log(LOG_ERR, "Node %s is not known to us", join_from); /* make sure any information from this node is discarded, * it is invalid */ free_xml(cib_fragment); FNRET(I_FAIL); } cl_log(LOG_DEBUG, "Welcoming node %s after ACK", join_from); // add them to our list of "active" nodes g_hash_table_insert(joined_nodes, strdup(join_from),strdup(join_from)); if(cib_fragment == NULL) { cl_log(LOG_ERR, "No status information was part of the" " Welcome ACK from %s", join_from); FNRET(I_NULL); } /* TODO: check the fragment is only for the status section = get_xml_attr(cib_fragment, NULL, XML_ATTR_FILTER_TYPE, TRUE); */ /* Make changes so that state=active for this node when the update * is processed by A_CIB_INVOKE */ tmp1 = find_xml_node(cib_fragment, XML_TAG_CIB); tmp1 = get_object_root(XML_CIB_TAG_STATUS, tmp1); tmp1 = find_entity(tmp1, XML_CIB_TAG_STATE, join_from, FALSE); set_xml_property_copy(tmp1, "state", "active"); if(g_hash_table_size(joined_nodes) == fsa_membership_copy->members_size) { // that was the last outstanding join ack) cl_log(LOG_INFO,"That was the last outstanding join ack"); FNRET(I_SUCCESS); } else { cl_log(LOG_DEBUG, "Still waiting on %d outstanding join acks", size); //dont waste time by invoking the pe yet; } FNRET(I_CIB_OP); } void ghash_send_welcome(gpointer key, gpointer value, gpointer user_data) { int *num_sent = (int*)user_data; const char *node_uname = (const char*)key; if(strcmp(fsa_our_uname, node_uname) == 0) { // dont send one to ourselves return; } if(send_request(NULL, NULL, CRM_OPERATION_WELCOME, - node_uname, CRM_SYSTEM_CRMD)) { + node_uname, CRM_SYSTEM_CRMD, NULL)) { *num_sent++; CRM_DEBUG("Sent welcome message to %s", node_uname); } else { cl_log(LOG_ERR, "Couldnt send welcome message to %s", node_uname); } } void ghash_count_vote(gpointer key, gpointer value, gpointer user_data) { struct election_data_s *election_data = (struct election_data_s *)user_data; oc_node_t *cur_node = (oc_node_t*)value; const char *node_uname = (const char*)key; if(election_data->winning_bornon > cur_node->node_born_on) { election_data->winning_uname = node_uname; election_data->winning_bornon = cur_node->node_born_on; } else if(election_data->winning_bornon == cur_node->node_born_on && (election_data->winning_uname == NULL || strcmp(election_data->winning_uname, node_uname) > 0)) { election_data->winning_uname = node_uname; election_data->winning_bornon = cur_node->node_born_on; } } diff --git a/crm/crmd/messages.c b/crm/crmd/messages.c index a9457dda86..80f5f6f85c 100644 --- a/crm/crmd/messages.c +++ b/crm/crmd/messages.c @@ -1,876 +1,888 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #include #include FILE *msg_in_strm = NULL; FILE *router_strm = NULL; fsa_message_queue_t fsa_message_queue = NULL; gboolean relay_message(xmlNodePtr xml_relay_message, gboolean originated_locally); #ifdef MSG_LOG # define ROUTER_RESULT(x) char *msg_text = dump_xml(xml_relay_message);\ if(router_strm == NULL) { \ router_strm = fopen("/tmp/router.log", "w"); \ } \ fprintf(router_strm, "[%d RESULT (%s)]\t%s\t%s\n", \ AM_I_DC, \ xmlGetProp(xml_relay_message, XML_ATTR_REFERENCE),\ x, msg_text); \ fflush(router_strm); \ cl_free(msg_text); #else # define ROUTER_RESULT(x) CRM_DEBUG(x); #endif /* returns the current head of the FIFO queue */ fsa_message_queue_t put_message(xmlNodePtr new_message) { fsa_message_queue_t next_message = (fsa_message_queue_t) cl_malloc(sizeof(struct fsa_message_queue_s)); CRM_DEBUG("Adding msg to queue"); // make sure to free it properly later next_message->message = copy_xml_node_recursive(new_message); next_message->next = NULL; if(fsa_message_queue == NULL) { fsa_message_queue = next_message; } else { fsa_message_queue->next = next_message; } CRM_DEBUG("Added msg to queue"); return fsa_message_queue; } /* returns the next message */ fsa_message_queue_t get_message(void) { fsa_message_queue_t next_message = NULL; if(fsa_message_queue != NULL) { next_message = fsa_message_queue; fsa_message_queue = fsa_message_queue->next; next_message->next = NULL; } return next_message; } /* returns the current head of the FIFO queue */ gboolean is_message(void) { return (fsa_message_queue != NULL && fsa_message_queue->message != NULL); } /* A_MSG_STORE */ enum crmd_fsa_input do_msg_store(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { // xmlNodePtr new_message = (xmlNodePtr)data; FNIN(); // put_message(new_message); FNRET(I_NULL); } /* A_MSG_ROUTE */ enum crmd_fsa_input do_msg_route(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input result = I_NULL; xmlNodePtr xml_message = (xmlNodePtr)data; gboolean routed = FALSE, defer = TRUE, do_process = TRUE; FNIN(); #if 0 // if(cause == C_IPC_MESSAGE) { if (crmd_authorize_message(root_xml_node, msg, curr_client) == FALSE) { CRM_DEBUG("Message not authorized"); do_process = FALSE; } // } #endif if(do_process) { /* try passing the buck first */ routed = relay_message(xml_message, cause==C_IPC_MESSAGE); if(routed == FALSE) { defer = TRUE; /* calculate defer */ result = handle_message(xml_message); switch(result) { case I_NULL: defer = FALSE; break; case I_DC_HEARTBEAT: defer = FALSE; break; /* what else should go here? */ default: CRM_DEBUG("Defering local processing of message"); put_message(xml_message); result = I_REQUEST; break; } } } FNRET(result); } void crmd_ha_input_callback(const struct ha_msg* msg, void* private_data) { const char *from = ha_msg_value(msg, F_ORIG); const char *to = NULL; xmlNodePtr root_xml_node; FNIN(); #ifdef MSG_LOG if(msg_in_strm == NULL) { msg_in_strm = fopen("/tmp/inbound.log", "w"); } #endif if(from == NULL || strcmp(from, fsa_our_uname) == 0) { #ifdef MSG_LOG fprintf(msg_in_strm, "Discarded message [F_SEQ=%s] from ourselves.\n", ha_msg_value(msg, F_SEQ)); #endif FNOUT(); } #ifdef MSG_LOG fprintf(msg_in_strm, "[%s (%s:%s)]\t%s\n", from, ha_msg_value(msg, F_SEQ), ha_msg_value(msg, F_TYPE), ha_msg_value(msg, "xml") ); fflush(msg_in_strm); #endif root_xml_node = find_xml_in_hamessage(msg); to = xmlGetProp(root_xml_node, XML_ATTR_HOSTTO); if(to != NULL && strlen(to) > 0 && strcmp(to, fsa_our_uname) != 0) { #ifdef MSG_LOG fprintf(msg_in_strm, "Discarding message [F_SEQ=%s] for someone else.", ha_msg_value(msg, F_SEQ)); #endif FNOUT(); } set_xml_property_copy(root_xml_node, XML_ATTR_HOSTFROM, from); s_crmd_fsa(C_HA_MESSAGE, I_ROUTER, root_xml_node); free_xml(root_xml_node); FNOUT(); } /* * Apparently returning TRUE means "stay connected, keep doing stuff". * Returning FALSE means "we're all done, close the connection" */ gboolean crmd_ipc_input_callback(IPC_Channel *client, gpointer user_data) { int lpc = 0; char *buffer = NULL; IPC_Message *msg = NULL; gboolean hack_return_good = TRUE; xmlNodePtr root_xml_node; crmd_client_t *curr_client = (crmd_client_t*)user_data; FNIN(); CRM_DEBUG("Processing IPC message from %s", curr_client->table_key); while(client->ops->is_message_pending(client)) { if (client->ch_status == IPC_DISCONNECT) { /* The message which was pending for us is that * the IPC status is now IPC_DISCONNECT */ break; } if (client->ops->recv(client, &msg) != IPC_OK) { perror("Receive failure:"); FNRET(!hack_return_good); } if (msg == NULL) { CRM_DEBUG("No message this time"); continue; } lpc++; buffer = (char*)msg->msg_body; CRM_DEBUG("Processing xml from %s [text=%s]", curr_client->table_key, buffer); root_xml_node = find_xml_in_ipcmessage(msg, FALSE); if (root_xml_node != NULL) { if (crmd_authorize_message(root_xml_node, msg, curr_client)) { CRM_DEBUG("Message authorized,about to relay"); s_crmd_fsa(C_IPC_MESSAGE, I_ROUTER, root_xml_node); } } else { cl_log(LOG_INFO, "IPC Message was not valid... discarding."); } free_xml(root_xml_node); msg->msg_done(msg); msg = NULL; buffer = NULL; root_xml_node = NULL; } CRM_DEBUG("Processed %d messages", lpc); if (client->ch_status == IPC_DISCONNECT) { cl_log(LOG_INFO, "received HUP from %s", curr_client->table_key); if (curr_client != NULL) { struct crm_subsystem_s *the_subsystem = NULL; if (curr_client->sub_sys == NULL) CRM_DEBUG("Client had not registered with us yet"); else if (strcmp(CRM_SYSTEM_PENGINE, curr_client->sub_sys) == 0) the_subsystem = pe_subsystem; else if (strcmp(CRM_SYSTEM_TENGINE, curr_client->sub_sys) == 0) the_subsystem = te_subsystem; else if (strcmp(CRM_SYSTEM_CIB, curr_client->sub_sys) == 0) the_subsystem = cib_subsystem; if(the_subsystem != NULL) { cleanup_subsystem(the_subsystem); } // else that was a transient client if (curr_client->table_key != NULL) { /* * Key is destroyed below: curr_client->table_key * Value is cleaned up by G_main_del_IPC_Channel */ g_hash_table_remove(ipc_clients, curr_client->table_key); } if(curr_client->client_source != NULL) { gboolean det = G_main_del_IPC_Channel(curr_client->client_source); CRM_DEBUG("crm_client was %s detached", det?"successfully":"not"); } cl_free(curr_client->table_key); cl_free(curr_client->sub_sys); cl_free(curr_client->uuid); cl_free(curr_client); } CRM_DEBUG("this client has now left the building."); FNRET(!hack_return_good); } FNRET(hack_return_good); } /* * This method adds a copy of xml_response_data */ gboolean send_request(xmlNodePtr msg_options, xmlNodePtr msg_data, - const char *operation, const char *host_to, const char *sys_to) + const char *operation, const char *host_to, const char *sys_to, + char **msg_reference) { gboolean was_sent = FALSE; xmlNodePtr request = NULL; FNIN(); msg_options = set_xml_attr(msg_options, XML_TAG_OPTIONS, XML_ATTR_OP, operation, TRUE); request = create_request(msg_options, msg_data, host_to, sys_to, AM_I_DC?CRM_SYSTEM_DC:CRM_SYSTEM_CRMD, NULL, NULL); // xml_message_debug(request, "Final request..."); + if(msg_reference != NULL) { + *msg_reference = cl_strdup(xmlGetProp(request, XML_ATTR_REFERENCE)); + } + was_sent = relay_message(request, TRUE); if(was_sent == FALSE) { put_message(request); } free_xml(request); FNRET(was_sent); } /* * This method adds a copy of xml_response_data */ gboolean store_request(xmlNodePtr msg_options, xmlNodePtr msg_data, const char *operation, const char *host_to, const char *sys_to) { xmlNodePtr request = NULL; FNIN(); msg_options = set_xml_attr(msg_options, XML_TAG_OPTIONS, XML_ATTR_OP, operation, TRUE); request = create_request(msg_options, msg_data, host_to, sys_to, AM_I_DC?CRM_SYSTEM_DC:CRM_SYSTEM_CRMD, NULL, NULL); put_message(request); FNRET(TRUE); } gboolean relay_message(xmlNodePtr xml_relay_message, gboolean originated_locally) { int is_for_dc = 0; int is_for_dcib = 0; int is_for_crm = 0; int is_for_cib = 0; int is_local = 0; gboolean dont_cc= TRUE; gboolean processing_complete = FALSE; const char *host_to = xmlGetProp(xml_relay_message,XML_ATTR_HOSTTO); const char *sys_to = xmlGetProp(xml_relay_message,XML_ATTR_SYSTO); FNIN(); if(xml_relay_message == NULL) { cl_log(LOG_ERR, "Cannot route empty message"); FNRET(TRUE); } if(strcmp("hello", xml_relay_message->name) == 0) { /* quietly ignore */ FNRET(TRUE); } if(strcmp(XML_MSG_TAG, xml_relay_message->name) != 0) { xml_message_debug(xml_relay_message, "Bad message type, should be crm_message"); cl_log(LOG_ERR, "Ignoring message of type %s", xml_relay_message->name); FNRET(TRUE); } if(sys_to == NULL) { xml_message_debug(xml_relay_message, "Message did not have any value for sys_to"); cl_log(LOG_ERR, "Message did not have any value for %s", XML_ATTR_SYSTO); FNRET(TRUE); } is_for_dc = (strcmp(CRM_SYSTEM_DC, sys_to) == 0); is_for_dcib = (strcmp(CRM_SYSTEM_DCIB, sys_to) == 0); is_for_cib = (strcmp(CRM_SYSTEM_CIB, sys_to) == 0); is_for_crm = (strcmp(CRM_SYSTEM_CRMD, sys_to) == 0); is_local = 0; if(host_to == NULL || strlen(host_to) == 0) { if(is_for_dc) is_local = 0; else if(is_for_crm && originated_locally) is_local = 0; else is_local = 1; } else if(strcmp(fsa_our_uname, host_to) == 0) { is_local=1; } #if 0 CRM_DEBUG("is_local %d", is_local); CRM_DEBUG("is_for_dcib %d", is_for_dcib); CRM_DEBUG("is_for_dc %d", is_for_dc); CRM_DEBUG("is_for_crm %d", is_for_crm); CRM_DEBUG("AM_I_DC %d", AM_I_DC); CRM_DEBUG("sys_to %s", sys_to); CRM_DEBUG("host_to %s", host_to); #endif if(is_for_dc || is_for_dcib) { if(AM_I_DC) { ROUTER_RESULT("Message result: DC/CRMd process"); processing_complete = FALSE; // more to be done by caller } else if(originated_locally) { ROUTER_RESULT("Message result: External relay to DC"); send_msg_via_ha(xml_relay_message, NULL); processing_complete = TRUE; } else { ROUTER_RESULT("Message result: Discard, not DC"); processing_complete = TRUE; // discard } } else if(is_local && (is_for_crm || is_for_cib)) { ROUTER_RESULT("Message result: CRMd process"); } else if(is_local) { if(dont_cc) { ROUTER_RESULT("Message result: Local relay"); } else { /* The DC should also get this message */ ROUTER_RESULT("Message result: Local relay with CC"); } send_msg_via_ipc(xml_relay_message, sys_to); processing_complete = TRUE & dont_cc; } else { if(dont_cc) { ROUTER_RESULT("Message result: External relay"); } else { /* The DC should also get this message */ ROUTER_RESULT("Message result: External relay with CC"); } send_msg_via_ha(xml_relay_message, host_to); processing_complete = TRUE & dont_cc; } FNRET(processing_complete); } void send_msg_via_ha(xmlNodePtr action, const char *dest_node) { FNIN(); if (action == NULL) FNOUT(); if (validate_crm_message(action, NULL, NULL, NULL) == NULL) { cl_log(LOG_ERR, "Relay message to (%s) via HA was invalid, ignoring", dest_node); FNOUT(); } // CRM_DEBUG("Relaying message to (%s) via HA", dest_node); set_xml_property_copy(action, XML_ATTR_HOSTTO, dest_node); send_xmlha_message(fsa_cluster_conn, action); FNOUT(); } void send_msg_via_ipc(xmlNodePtr action, const char *sys) { IPC_Channel *client_channel; FNIN(); // cl_log(LOG_DEBUG, "relaying msg to sub_sys=%s via IPC", sys); client_channel = (IPC_Channel*)g_hash_table_lookup (ipc_clients, sys); if (client_channel != NULL) { cl_log(LOG_DEBUG, "Sending message via channel %s.", sys); send_xmlipc_message(client_channel, action); } else if(sys != NULL && strcmp(sys, CRM_SYSTEM_CIB) == 0) { cl_log(LOG_ERR, "Sub-system (%s) has been incorporated into the CRMd.", sys); xml_message_debug(action, "Change the way we handle"); relay_message(process_cib_message(action, TRUE), TRUE); } else if(sys != NULL && strcmp(sys, CRM_SYSTEM_LRMD) == 0) { do_lrm_invoke(A_LRM_INVOKE, C_IPC_MESSAGE, fsa_state, I_MESSAGE, action); } else { cl_log(LOG_ERR, "Unknown Sub-system (%s)... discarding message.", sys); } FNOUT(); } gboolean crmd_authorize_message(xmlNodePtr root_xml_node, IPC_Message *client_msg, crmd_client_t *curr_client) { // check the best case first const char *sys_from = xmlGetProp(root_xml_node, XML_ATTR_SYSFROM); char *uuid = NULL; char *client_name = NULL; char *major_version = NULL; char *minor_version = NULL; const char *filtered_from; gpointer table_key = NULL; gboolean result; const char *op = get_xml_attr(root_xml_node, XML_TAG_OPTIONS, XML_ATTR_OP, FALSE); FNIN(); if (safe_str_neq("hello", op)) { if(sys_from == NULL) { return FALSE; } gboolean can_reply = FALSE; // no-one has registered with this id filtered_from = sys_from; /* The CIB can have two names on the DC */ if(strcmp(sys_from, CRM_SYSTEM_DCIB) == 0) filtered_from = CRM_SYSTEM_CIB; if (g_hash_table_lookup (ipc_clients, filtered_from) != NULL) can_reply = TRUE; // reply can be routed CRM_DEBUG("Message reply can%s be routed from %s.", can_reply?"":" not", sys_from); if(can_reply == FALSE) { cl_log(LOG_ERR, "Message not authorized"); } return can_reply; } cl_log(LOG_INFO, "received client join msg: %s", (char*)client_msg->msg_body); result = process_hello_message(root_xml_node, &uuid, &client_name, &major_version, &minor_version); if (result == TRUE) { // check version int mav = atoi(major_version); int miv = atoi(minor_version); if (mav < 0 || miv < 0) { cl_log(LOG_ERR, "Client version (%d:%d) is not acceptable", mav, miv); result = FALSE; } cl_free(major_version); cl_free(minor_version); } struct crm_subsystem_s *the_subsystem = NULL; if (result == TRUE) { /* if we already have one of those clients * only applies to te, pe etc. not admin clients */ if (client_name == NULL) CRM_DEBUG("Client had not registered with us yet"); else if (strcmp(CRM_SYSTEM_PENGINE, client_name) == 0) the_subsystem = pe_subsystem; else if (strcmp(CRM_SYSTEM_TENGINE, client_name) == 0) the_subsystem = te_subsystem; else if (strcmp(CRM_SYSTEM_CIB, client_name) == 0) the_subsystem = cib_subsystem; if (the_subsystem != NULL) { // do we already have one? result =(fsa_input_register & the_subsystem->flag)==0; if(result) { the_subsystem->ipc = curr_client->client_channel; } // else we didnt ask for the client to start } else if(client_name != NULL && uuid != NULL) { table_key = (gpointer) generate_hash_key(client_name, uuid); } else { result = FALSE; cl_log(LOG_ERR, "Bad client details (client_name=%s, uuid=%s)", client_name, uuid); } } if(result == TRUE && table_key == NULL) table_key = (gpointer)cl_strdup(client_name); if (result == TRUE) { cl_log(LOG_INFO, "Accepted client %s", (char*)table_key); curr_client->table_key = table_key; curr_client->sub_sys = cl_strdup(client_name); curr_client->uuid = cl_strdup(uuid); g_hash_table_insert (ipc_clients, table_key, curr_client->client_channel); send_hello_message(curr_client->client_channel, "n/a", CRM_SYSTEM_CRMD, "0", "1"); cl_log(LOG_INFO, "Updated client list with %s", (char*)table_key); if(the_subsystem != NULL) { set_bit_inplace(&fsa_input_register, the_subsystem->flag); } s_crmd_fsa(C_SUBSYSTEM_CONNECT, I_NULL, NULL); } else { cl_log(LOG_ERR, "Rejected client logon request"); curr_client->client_channel->ch_status = IPC_DISC_PENDING; } if(uuid != NULL) cl_free(uuid); if(client_name != NULL) cl_free(client_name); /* hello messages should never be processed further */ return FALSE; } enum crmd_fsa_input handle_message(xmlNodePtr stored_msg) { enum crmd_fsa_input next_input = I_NULL; const char *sys_to = get_xml_attr(stored_msg, NULL, XML_ATTR_SYSTO, TRUE); -// const char *sys_from = get_xml_attr(stored_msg, NULL, -// XML_ATTR_SYSFROM, TRUE); + const char *sys_from = get_xml_attr(stored_msg, NULL, + XML_ATTR_SYSFROM, TRUE); + + const char *msg_ref = get_xml_attr(stored_msg, NULL, + XML_ATTR_REFERENCE, TRUE); const char *type = get_xml_attr(stored_msg, NULL, XML_ATTR_MSGTYPE, TRUE); const char *op = get_xml_attr(stored_msg, XML_TAG_OPTIONS, XML_ATTR_OP, TRUE); // xml_message_debug(stored_msg, "Processing message"); if(type == NULL || op == NULL) { cl_log(LOG_ERR, "Ignoring message (type=%s), (op=%s)", type, op); xml_message_debug(stored_msg, "Bad message"); } else if(strcmp(type, XML_ATTR_REQUEST) == 0){ if(strcmp(op, CRM_OPERATION_VOTE) == 0) { next_input = I_ELECTION; } else if(AM_I_DC && strcmp(op, "te_abort") == 0) { next_input = I_PE_CALC; } else if(AM_I_DC && fsa_state == S_TRANSITION_ENGINE && strcmp(op, "te_complete") == 0) { next_input = I_SUCCESS; } else if(strcmp(op, CRM_OPERATION_HBEAT) == 0) { next_input = I_DC_HEARTBEAT; } else if(strcmp(op, CRM_OPERATION_WELCOME) == 0) { next_input = I_WELCOME; } else if(strcmp(op, CRM_OPERATION_SHUTDOWN_REQ) == 0) { next_input = I_CIB_OP; } else if(strcmp(op, CRM_OPERATION_SHUTDOWN) == 0) { next_input = I_TERMINATE; } else if(strcmp(op, CRM_OPERATION_ANNOUNCE) == 0) { next_input = I_NODE_JOIN; } else if(strcmp(op, CRM_OPERATION_REPLACE) == 0 || strcmp(op, CRM_OPERATION_ERASE) == 0) { next_input = I_CIB_OP; fprintf(router_strm, "Message result: CIB Op\n"); } else if(AM_I_DC && (strcmp(op, CRM_OPERATION_CREATE) == 0 || strcmp(op, CRM_OPERATION_UPDATE) == 0 || strcmp(op, CRM_OPERATION_DELETE) == 0)) { /* updates should only be performed on the DC */ next_input = I_CIB_OP; } else if(strcmp(op, CRM_OPERATION_PING) == 0) { /* eventually do some stuff to figure out * if we /are/ ok */ xmlNodePtr ping = createPingAnswerFragment(sys_to, "ok"); xmlNodePtr wrapper = create_reply(stored_msg, ping); relay_message(wrapper, TRUE); free_xml(wrapper); } else { cl_log(LOG_ERR, "Unexpected request (op=%s) sent to the %s", op, AM_I_DC?"DC":"CRMd"); } } else if(strcmp(type, XML_ATTR_RESPONSE) == 0) { if(strcmp(op, CRM_OPERATION_WELCOME) == 0) { next_input = I_WELCOME_ACK; } else if(strcmp(op, "pecalc") == 0) { - // results int eh TE being invoked - next_input = I_SUCCESS; + // results in the TE being invoked + if(safe_str_eq(msg_ref, fsa_pe_ref)) { + next_input = I_SUCCESS; + } else { + CRM_DEBUG("Skipping superceeded reply from %s", sys_from); + } } else if(strcmp(op, CRM_OPERATION_VOTE) == 0 || strcmp(op, CRM_OPERATION_HBEAT) == 0 || strcmp(op, CRM_OPERATION_WELCOME) == 0 || strcmp(op, CRM_OPERATION_SHUTDOWN_REQ) == 0 || strcmp(op, CRM_OPERATION_SHUTDOWN) == 0 || strcmp(op, CRM_OPERATION_ANNOUNCE) == 0) { next_input = I_NULL; } else if(strcmp(op, CRM_OPERATION_CREATE) == 0 || strcmp(op, CRM_OPERATION_UPDATE) == 0 || strcmp(op, CRM_OPERATION_DELETE) == 0 || strcmp(op, CRM_OPERATION_REPLACE) == 0 || strcmp(op, CRM_OPERATION_ERASE) == 0) { /* perhaps we should do somethign with these replies, * especially check that the actions passed */ /* fprintf(router_strm, "Message result: CIB Reply\n"); */ } else { cl_log(LOG_ERR, "Unexpected response (op=%s) sent to the %s", op, AM_I_DC?"DC":"CRMd"); next_input = I_NULL; } } else { cl_log(LOG_ERR, "Unexpected message type %s", type); } /* CRM_DEBUG("%s: Next input is %s", __FUNCTION__, */ /* fsa_input2string(next_input)); */ return next_input; } void lrm_op_callback (lrm_op_t* op) { CRM_DEBUG("In lrm_op_callback()"); s_crmd_fsa(C_LRM_OP_CALLBACK, I_LRM_EVENT, op); } void lrm_monitor_callback (lrm_mon_t* monitor) { CRM_DEBUG("In lrm_monitor_callback()"); s_crmd_fsa(C_LRM_MONITOR_CALLBACK, I_LRM_EVENT, monitor); } diff --git a/crm/crmd/subsystems.c b/crm/crmd/subsystems.c index 436446d6f4..1f9872c888 100644 --- a/crm/crmd/subsystems.c +++ b/crm/crmd/subsystems.c @@ -1,1249 +1,1256 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include // for access #include #include #include // for calls to open #include // for calls to open #include // for calls to open #include // for getpwuid #include // for initgroups #include // for getrlimit #include // for getrlimit #include #include #include #include #include #include #include #include #include #include #include #define CLIENT_EXIT_WAIT 10 static gboolean stop_subsystem (struct crm_subsystem_s *centry); static gboolean start_subsystem(struct crm_subsystem_s *centry); static gboolean run_command (struct crm_subsystem_s *centry, const char *options, gboolean update_pid); xmlNodePtr do_lrm_query(void); GHashTable *xml2list(xmlNodePtr parent, const char **attr_path, int depth); gboolean lrm_dispatch(int fd, gpointer user_data); void do_update_resource(lrm_rsc_t *rsc, int status, int rc, const char *op_type); struct crm_subsystem_s *cib_subsystem = NULL; struct crm_subsystem_s *te_subsystem = NULL; struct crm_subsystem_s *pe_subsystem = NULL; void cleanup_subsystem(struct crm_subsystem_s *the_subsystem) { int pid_status = -1; the_subsystem->ipc = NULL; clear_bit_inplace(&fsa_input_register, the_subsystem->flag); /* Forcing client to die */ kill(the_subsystem->pid, -9); // cleanup the ps entry waitpid(the_subsystem->pid, &pid_status, WNOHANG); the_subsystem->pid = -1; } /* A_CIB_STOP, A_CIB_START, A_CIB_RESTART, */ enum crmd_fsa_input do_cib_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input result = I_NULL; struct crm_subsystem_s *this_subsys = cib_subsystem; long long stop_actions = A_CIB_STOP; long long start_actions = A_CIB_START; FNIN(); if(action & stop_actions) { // dont do anything, its embedded now } if(action & start_actions) { if(cur_state != S_STOPPING) { if(startCib(CIB_FILENAME) == FALSE) result = I_FAIL; } else { cl_log(LOG_INFO, "Ignoring request to start %s after shutdown", this_subsys->command); } } FNRET(result); } /* A_CIB_INVOKE, A_CIB_BUMPGEN, A_UPDATE_NODESTATUS */ enum crmd_fsa_input do_cib_invoke(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { xmlNodePtr cib_msg = NULL; xmlNodePtr answer = NULL; xmlNodePtr tmp1 = NULL; xmlNodePtr tmp2 = NULL; xmlNodePtr new_options = NULL; const char *req_from; const char *section = NULL; FNIN(); if(data != NULL) { cib_msg = (xmlNodePtr)data; } if(action & A_CIB_INVOKE) { const char *op = get_xml_attr(cib_msg, XML_TAG_OPTIONS, XML_ATTR_OP, TRUE); xml_message_debug(cib_msg, "[CIB] Invoking with"); if(cib_msg == NULL) { cl_log(LOG_ERR, "No message for CIB command"); FNRET(I_NULL); // I_ERROR } if(safe_str_eq(op, CRM_OPERATION_SHUTDOWN_REQ)){ // create update section tmp2 = create_xml_node(NULL, XML_CIB_TAG_STATE); req_from = xmlGetProp(cib_msg, XML_ATTR_HOSTFROM); set_xml_property_copy(tmp1, "id", req_from); set_xml_property_copy(tmp1, "exp_state", "shutdown"); // create fragment tmp1 = create_cib_fragment(tmp2, NULL); // add to cib_msg add_node_copy(cib_msg, tmp1); free_xml(tmp2); free_xml(tmp1); } set_xml_property_copy(cib_msg, XML_ATTR_SYSTO, "cib"); answer = process_cib_message(cib_msg, TRUE); if(relay_message(answer, TRUE) == FALSE) { cl_log(LOG_ERR, "Confused what to do with cib result"); xml_message_debug(answer, "Couldnt route: "); } if(op != NULL && AM_I_DC && (strcmp(op, CRM_OPERATION_CREATE) == 0 || strcmp(op, CRM_OPERATION_UPDATE) == 0 || strcmp(op, CRM_OPERATION_DELETE) == 0 || strcmp(op, CRM_OPERATION_REPLACE) == 0 || strcmp(op, CRM_OPERATION_WELCOME) == 0 || strcmp(op, CRM_OPERATION_SHUTDOWN_REQ) == 0 || strcmp(op, CRM_OPERATION_ERASE) == 0)) { FNRET(I_CIB_UPDATE); } if(op == NULL) { xml_message_debug(cib_msg, "Invalid CIB Message"); } // check the answer, see if we are interested in it also #if 0 if(interested in reply) { put_message(answer); FNRET(I_REQUEST); } #endif free_xml(answer); /* experimental */ } else if(action & A_CIB_INVOKE_LOCAL) { xml_message_debug(cib_msg, "[CIB] Invoking with"); if(cib_msg == NULL) { cl_log(LOG_ERR, "No message for CIB command"); FNRET(I_NULL); // I_ERROR } answer = process_cib_message(cib_msg, TRUE); put_message(answer); FNRET(I_REQUEST); } else if(action & A_CIB_BUMPGEN) { // check if the response was ok before next bit section = get_xml_attr(cib_msg, XML_TAG_OPTIONS, XML_ATTR_FILTER_TYPE, FALSE); /* set the section so that we dont always send the * whole thing */ if(section != NULL) { new_options = set_xml_attr(NULL, XML_TAG_OPTIONS, XML_ATTR_FILTER_TYPE, section, TRUE); } answer = process_cib_request(CRM_OPERATION_BUMP, new_options, NULL); free_xml(new_options); if(answer == NULL) { cl_log(LOG_ERR, "Result of BUMP in %s was NULL", __FUNCTION__); FNRET(I_FAIL); } send_request(NULL, answer, CRM_OPERATION_REPLACE, - NULL, CRM_SYSTEM_CRMD); + NULL, CRM_SYSTEM_CRMD, NULL); free_xml(answer); } else { cl_log(LOG_ERR, "Unexpected action %s in %s", fsa_action2string(action), __FUNCTION__); } FNRET(I_NULL); } /* A_PE_START, A_PE_STOP, A_TE_RESTART */ enum crmd_fsa_input do_pe_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input result = I_NULL; struct crm_subsystem_s *this_subsys = pe_subsystem; long long stop_actions = A_PE_STOP; long long start_actions = A_PE_START; FNIN(); if(action & stop_actions) { if(stop_subsystem(this_subsys) == FALSE) result = I_FAIL; else if(this_subsys->pid > 0){ int lpc = CLIENT_EXIT_WAIT; int pid_status = -1; while(lpc-- > 0 && this_subsys->pid > 0 && CL_PID_EXISTS(this_subsys->pid)) { sleep(1); waitpid(this_subsys->pid, &pid_status, WNOHANG); } if(CL_PID_EXISTS(this_subsys->pid)) { cl_log(LOG_ERR, "Process %s is still active with pid=%d", this_subsys->command, this_subsys->pid); result = I_FAIL; } } cleanup_subsystem(this_subsys); } if(action & start_actions) { if(cur_state != S_STOPPING) { if(start_subsystem(this_subsys) == FALSE) { result = I_FAIL; cleanup_subsystem(this_subsys); } } else { cl_log(LOG_INFO, "Ignoring request to start %s while shutting down", this_subsys->command); } } FNRET(result); } +char *fsa_pe_ref = NULL; + /* A_PE_INVOKE */ enum crmd_fsa_input do_pe_invoke(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { FNIN(); stopTimer(integration_timer); if(is_set(fsa_input_register, R_PE_CONNECTED) == FALSE){ cl_log(LOG_INFO, "Waiting for the PE to connect"); FNRET(I_WAIT_FOR_EVENT); } xmlNodePtr local_cib = get_cib_copy(); CRM_DEBUG("Invoking %s with %p", CRM_SYSTEM_PENGINE, local_cib); - + + if(fsa_pe_ref) { + cl_free(fsa_pe_ref); + fsa_pe_ref = NULL; + } + send_request(NULL, local_cib, "pecalc", - NULL, CRM_SYSTEM_PENGINE); + NULL, CRM_SYSTEM_PENGINE, &fsa_pe_ref); FNRET(I_NULL); } /* A_TE_START, A_TE_STOP, A_TE_RESTART */ enum crmd_fsa_input do_te_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input result = I_NULL; struct crm_subsystem_s *this_subsys = te_subsystem; long long stop_actions = A_TE_STOP; long long start_actions = A_TE_START; FNIN(); /* if(action & stop_actions && cur_state != S_STOPPING */ /* && is_set(fsa_input_register, R_TE_PEND)) { */ /* result = I_WAIT_FOR_EVENT; */ /* FNRET(result); */ /* } */ if(action & stop_actions) { if(stop_subsystem(this_subsys) == FALSE) result = I_FAIL; else if(this_subsys->pid > 0){ int lpc = CLIENT_EXIT_WAIT; int pid_status = -1; while(lpc-- > 0 && this_subsys->pid > 0 && CL_PID_EXISTS(this_subsys->pid)) { sleep(1); waitpid(this_subsys->pid, &pid_status, WNOHANG); } if(CL_PID_EXISTS(this_subsys->pid)) { cl_log(LOG_ERR, "Process %s is still active with pid=%d", this_subsys->command, this_subsys->pid); result = I_FAIL; } } cleanup_subsystem(this_subsys); } if(action & start_actions) { if(cur_state != S_STOPPING) { if(start_subsystem(this_subsys) == FALSE) { result = I_FAIL; cleanup_subsystem(this_subsys); } } else { cl_log(LOG_INFO, "Ignoring request to start %s while shutting down", this_subsys->command); } } FNRET(result); } static xmlNodePtr te_last_input = NULL; static xmlNodePtr te_lastcc = NULL; /* A_TE_COPYTO */ enum crmd_fsa_input do_te_copyto(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { xmlNodePtr message = NULL; xmlNodePtr opts = NULL; const char *true_op = NULL; FNIN(); if(data != NULL) { message = copy_xml_node_recursive((xmlNodePtr)data); opts = find_xml_node(message, "options"); true_op = xmlGetProp(opts, XML_ATTR_OP); set_xml_property_copy(opts, XML_ATTR_OP, "event"); set_xml_property_copy(opts, "true_op", true_op); set_xml_property_copy(message, XML_ATTR_SYSTO, CRM_SYSTEM_TENGINE); } if(is_set(fsa_input_register, R_TE_CONNECTED) == FALSE){ cl_log(LOG_INFO, "Waiting for the TE to connect"); if(data != NULL) { free_xml(te_lastcc); te_lastcc = message; } FNRET(I_WAIT_FOR_EVENT); } if(message == NULL) { message = te_lastcc; te_lastcc = NULL; } else { free_xml(te_lastcc); } relay_message(message, FALSE); // only free it if it was a local copy if(data == NULL) { free_xml(message); } FNRET(I_NULL); } /* A_TE_INVOKE, A_TE_CANCEL */ enum crmd_fsa_input do_te_invoke(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { xmlNodePtr graph = NULL; xmlNodePtr msg = (xmlNodePtr)data; FNIN(); if(is_set(fsa_input_register, R_TE_CONNECTED) == FALSE){ cl_log(LOG_INFO, "Waiting for the TE to connect"); if(data != NULL) { free_xml(te_last_input); te_last_input = copy_xml_node_recursive(msg); } FNRET(I_WAIT_FOR_EVENT); } if(msg == NULL) { msg = te_last_input; te_last_input = NULL; } else { free_xml(te_last_input); } if(action & A_TE_INVOKE) { graph = find_xml_node(msg, "transition_graph"); if(graph == NULL) { FNRET(I_FAIL); } send_request(NULL, graph, "transition", - NULL, CRM_SYSTEM_TENGINE); + NULL, CRM_SYSTEM_TENGINE, NULL); } else { send_request(NULL, graph, "abort", - NULL, CRM_SYSTEM_TENGINE); + NULL, CRM_SYSTEM_TENGINE, NULL); } // only free it if it was a local copy if(data == NULL) { free_xml(msg); } FNRET(I_NULL); } gboolean crmd_client_connect(IPC_Channel *client_channel, gpointer user_data) { FNIN(); CRM_DEBUG("A client tried to connect... and there was much rejoicing."); if (client_channel == NULL) { cl_log(LOG_ERR, "Channel was NULL"); } else if (client_channel->ch_status == IPC_DISCONNECT) { cl_log(LOG_ERR, "Channel was disconnected"); } else { crmd_client_t *blank_client = (crmd_client_t *)cl_malloc(sizeof(crmd_client_t)); if (blank_client == NULL) { cl_log(LOG_ERR, "Could not allocate memory for a blank crmd_client_t"); FNRET(FALSE); } client_channel->ops->set_recv_qlen(client_channel, 100); client_channel->ops->set_send_qlen(client_channel, 100); blank_client->client_channel = client_channel; blank_client->sub_sys = NULL; blank_client->uuid = NULL; blank_client->table_key = NULL; CRM_DEBUG("Adding IPC Channel to main thread."); blank_client->client_source = G_main_add_IPC_Channel(G_PRIORITY_LOW, client_channel, FALSE, crmd_ipc_input_callback, blank_client, default_ipc_input_destroy); } FNRET(TRUE); } static gboolean stop_subsystem(struct crm_subsystem_s* centry) { cl_log(LOG_INFO, "Stopping sub-system \"%s\"", centry->name); if (centry->pid <= 0) { cl_log(LOG_ERR, "OOPS! client %s not running yet", centry->command); } else { cl_log(LOG_INFO, "Sending quit message to %s.", centry->name); - send_request(NULL, NULL, "quit", NULL, centry->name); + send_request(NULL, NULL, "quit", NULL, centry->name, NULL); } return TRUE; } static gboolean start_subsystem(struct crm_subsystem_s* centry) { cl_log(LOG_INFO, "Starting sub-system \"%s\"", centry->command); if (centry->pid != 0) { cl_log(LOG_ERR, "OOPS! client %s already running as pid %d" , centry->command, (int) centry->pid); } return run_command(centry, "-r", TRUE); } static gboolean run_command(struct crm_subsystem_s *centry, const char *options, gboolean update_pid) { pid_t pid; struct stat buf; int s_res,size; char *cmd_with_options = NULL; /* * We need to ensure that the exec will succeed before * we bother forking. We don't want to respawn something that * won't exec in the first place. */ if (access(centry->path, F_OK|X_OK) != 0) { cl_perror("Cannot (access) exec %s", centry->path); return FALSE; } s_res = stat(centry->command, &buf); if(s_res != 0) { cl_perror("Cannot (stat) exec %s", centry->command); return FALSE; } /* We need to fork so we can make child procs not real time */ switch(pid=fork()) { case -1: cl_log(LOG_ERR , "start_a_child_client: Cannot fork."); return FALSE; default: /* Parent */ #if 0 NewTrackedProc(pid, 1, PT_LOGVERBOSE , centry, &ManagedChildTrackOps); #else if(update_pid) centry->pid = pid; #endif return TRUE; case 0: /* Child */ break; } /* Child process: start the managed child */ cl_make_normaltime(); setpgid(0,0); /* Limit peak resource usage, maximize success chances */ if (centry->shortrcount > 0) { alarm(0); sleep(1); } size = strlen(options); size += strlen(centry->command); size += 2; // ' ' + \0 cmd_with_options = cl_malloc((1+size)*sizeof(char)); sprintf(cmd_with_options, "%s %s", centry->command, options); cmd_with_options[size] = 0; cl_log(LOG_INFO, "Executing \"%s\" (pid %d)", cmd_with_options, (int) getpid()); if(CL_SIGINTERRUPT(SIGALRM, 0) < 0) { cl_perror("Cannot set interrupt for child process %s", cmd_with_options); }else{ const char * devnull = "/dev/null"; unsigned int j; struct rlimit oflimits; CL_SIGNAL(SIGCHLD, SIG_DFL); alarm(0); CL_IGNORE_SIG(SIGALRM); /* A precautionary measure */ getrlimit(RLIMIT_NOFILE, &oflimits); for (j=0; j < oflimits.rlim_cur; ++j) { close(j); } (void)devnull; (void)open(devnull, O_RDONLY); /* Stdin: fd 0 */ (void)open(devnull, O_WRONLY); /* Stdout: fd 1 */ (void)open(devnull, O_WRONLY); /* Stderr: fd 2 */ (void)execl("/bin/sh", "sh", "-c", cmd_with_options, (const char *)NULL); /* Should not happen */ cl_perror("Cannot exec %s", cmd_with_options); } /* Suppress respawning */ exit(100); // never reached return TRUE; } /* A_LRM_CONNECT */ enum crmd_fsa_input do_lrm_control(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input failed = I_NULL;//I_FAIL; int ret = HA_OK; FNIN(); if(action & A_LRM_DISCONNECT) { fsa_lrm_conn->lrm_ops->signoff(fsa_lrm_conn); } if(action & A_LRM_CONNECT) { CRM_DEBUG("LRM: connect..."); fsa_lrm_conn = ll_lrm_new("lrm"); if(NULL == fsa_lrm_conn) { return failed; } CRM_DEBUG("LRM: sigon..."); ret = fsa_lrm_conn->lrm_ops->signon(fsa_lrm_conn, "crmd"); if(ret != HA_OK) { cl_log(LOG_ERR, "Failed to sign on to the LRM"); return failed; } CRM_DEBUG("LRM: set_lrm_callback..."); ret = fsa_lrm_conn->lrm_ops->set_lrm_callback(fsa_lrm_conn, lrm_op_callback, lrm_monitor_callback); if(ret != HA_OK) { cl_log(LOG_ERR, "Failed to set LRM callbacks"); return failed; } /* TODO: create a destroy handler that causes * some recovery to happen */ G_main_add_fd(G_PRIORITY_LOW, fsa_lrm_conn->lrm_ops->inputfd(fsa_lrm_conn), FALSE, lrm_dispatch, fsa_lrm_conn, default_ipc_input_destroy); } if(action & ~(A_LRM_CONNECT|A_LRM_DISCONNECT)) { cl_log(LOG_ERR, "Unexpected action %s in %s", fsa_action2string(action), __FUNCTION__); } FNRET(I_NULL); } gboolean lrm_dispatch(int fd, gpointer user_data) { ll_lrm_t *lrm = (ll_lrm_t*)user_data; lrm->lrm_ops->rcvmsg(lrm, FALSE); return TRUE; } xmlNodePtr do_lrm_query(void) { GList* lrm_list = NULL; GList* element = NULL; GList* op_list = NULL; xmlNodePtr agent = NULL; xmlNodePtr data = create_xml_node(NULL, "lrm"); xmlNodePtr agent_list = create_xml_node(data, "lrm_agents"); xmlNodePtr rsc_list; char *rsc_type = NULL; state_flag_t cur_state = 0; const char *this_op = NULL; GList* node = NULL; lrm_list = fsa_lrm_conn->lrm_ops->get_ra_supported(fsa_lrm_conn); if (NULL != lrm_list) { GList* element = g_list_first(lrm_list); while (NULL != element) { rsc_type = (char*)element->data; agent = create_xml_node(agent_list, "lrm_agent"); set_xml_property_copy(agent, "class", rsc_type); /* we dont have these yet */ set_xml_property_copy(agent, "type", NULL); set_xml_property_copy(agent, "version", NULL); element = g_list_next(element); } } g_list_free(lrm_list); lrm_list = fsa_lrm_conn->lrm_ops->get_all_rscs(fsa_lrm_conn); rsc_list = create_xml_node(data, "lrm_resources"); if (NULL != lrm_list) { element = g_list_first(lrm_list); } while (NULL != element) { lrm_rsc_t *the_rsc = (lrm_rsc_t*)element->data; /* const char* ra_type; */ /* GHashTable* params; */ xmlNodePtr xml_rsc = create_xml_node(rsc_list, "rsc_state"); set_xml_property_copy(xml_rsc, "id", the_rsc->id); set_xml_property_copy(xml_rsc, "rsc_id", the_rsc->name); set_xml_property_copy(xml_rsc, "node_id",fsa_our_uname); CRM_DEBUG("get_cur_state..."); op_list = the_rsc->ops->get_cur_state(the_rsc, &cur_state); CRM_DEBUG("\tcurrent state:%s\n", cur_state==LRM_RSC_IDLE?"Idel":"Busy"); node = g_list_first(op_list); while(NULL != node){ lrm_op_t* op = (lrm_op_t*)node->data; this_op = op->op_type; if(this_op == NULL || strcmp(this_op, "status") != 0){ const char *status_text = ""; switch(op->status) { case LRM_OP_DONE: status_text = "done"; break; case LRM_OP_CANCELLED: status_text = "cancelled"; break; case LRM_OP_TIMEOUT: status_text = "timeout"; break; case LRM_OP_NOTSUPPORTED: status_text = "not suported"; break; case LRM_OP_ERROR: status_text = "error"; break; } set_xml_property_copy(xml_rsc, "op_result", status_text); set_xml_property_copy(xml_rsc, "rsc_op", this_op); // we only want the last one break; } node = g_list_next(node); } element = g_list_next(element); } if (NULL != lrm_list) { g_list_free(lrm_list); } return data; } /* A_LRM_INVOKE */ enum crmd_fsa_input do_lrm_invoke(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, void *data) { enum crmd_fsa_input next_input = I_NULL; xmlNodePtr fragment, tmp1; xmlNodePtr msg; const char *rsc_path[] = { "msg_data", "rsc_op", "resource", "instance_attributes", "parameters" }; const char *operation = NULL; rsc_id_t rid; const char *id_from_cib = NULL; const char *crm_op = NULL; lrm_rsc_t *rsc = NULL; lrm_mon_t* mon = NULL; lrm_op_t* op = NULL; FNIN(); if(action & A_UPDATE_NODESTATUS) { xmlNodePtr data = NULL; #ifndef USE_FAKE_LRM data = do_lrm_query(); #endif set_xml_property_copy(data, "replace_lrm", "true"); tmp1 = create_xml_node(NULL, XML_CIB_TAG_STATE); set_xml_property_copy(tmp1, XML_ATTR_ID, fsa_our_uname); // if we are doing this we are active set_xml_property_copy(tmp1, "state", "active"); // either active or shutdown if R_SHUTDOWN is set set_xml_property_copy(tmp1, "exp_state", "active"); fragment = create_cib_fragment(tmp1, NULL); set_xml_property_copy(data, "replace_lrm", "true"); add_node_copy(tmp1, data); send_request(NULL, fragment, CRM_OPERATION_UPDATE, - NULL, CRM_SYSTEM_DC); + NULL, CRM_SYSTEM_DC, NULL); free_xml(fragment); free_xml(tmp1); free_xml(data); FNRET(next_input); } #ifdef USE_FAKE_LRM if(data == NULL) { FNRET(I_ERROR); } msg = (xmlNodePtr)data; operation = get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -3, "task", TRUE); id_from_cib = get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -2, "id", TRUE); crm_op = get_xml_attr(msg, XML_TAG_OPTIONS, XML_ATTR_OP, TRUE); if(safe_str_eq(crm_op, "rsc_op")) { CRM_DEBUG("performing op %s...", operation); xmlNodePtr update = NULL; xmlNodePtr state = create_xml_node(NULL, XML_CIB_TAG_STATE); xmlNodePtr iter = create_xml_node(state, "lrm"); iter = create_xml_node(iter, "lrm_resources"); iter = create_xml_node(iter, "lrm_resource"); // so we can identify where to do the update set_xml_property_copy(state, "id", fsa_our_uname); set_xml_property_copy(iter, XML_ATTR_ID, id_from_cib); set_xml_property_copy(iter, "last_op", operation); if(safe_str_eq(operation, "start")){ set_xml_property_copy(iter, "op_status", "started"); } else { set_xml_property_copy(iter, "op_status", "stopped"); } set_xml_property_copy(iter, "op_code", "0"); set_xml_property_copy(iter, "op_node", fsa_our_uname); update = create_cib_fragment(state, NULL); send_request(NULL, update, "update", - NULL, CRM_SYSTEM_DCIB); + NULL, CRM_SYSTEM_DCIB, NULL); } FNRET(I_NULL); #endif cl_log(LOG_WARNING, "Action %s (%.16llx) only kind of supported\n", fsa_action2string(action), action); msg = (xmlNodePtr)data; operation = get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -3, XML_ATTR_OP, TRUE); id_from_cib = get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -2, "id", TRUE); // only the first 16 chars are used by the LRM strncpy(rid, id_from_cib, 16); crm_op = get_xml_attr(msg, XML_TAG_OPTIONS, XML_ATTR_OP, TRUE); rsc = fsa_lrm_conn->lrm_ops->get_rsc(fsa_lrm_conn, rid); if(crm_op != NULL && strcmp(crm_op, "lrm_query") == 0) { xmlNodePtr data, tmp1, tmp2, reply; tmp1 = create_xml_node(NULL, XML_CIB_TAG_STATE); set_xml_property_copy(tmp1, XML_ATTR_ID, fsa_our_uname); data = create_cib_fragment(tmp1, NULL); tmp2 = do_lrm_query(); add_node_copy(tmp1, tmp2); reply = create_reply(msg, data); relay_message(reply, TRUE); free_xml(data); free_xml(reply); free_xml(tmp2); free_xml(tmp1); } else if(operation != NULL && strcmp(operation, "monitor") == 0) { if(rsc == NULL) { cl_log(LOG_ERR, "Could not find resource to monitor"); FNRET(I_FAIL); } mon = g_new(lrm_mon_t, 1); mon->op_type = "status"; mon->params = NULL; mon->timeout = 0; mon->user_data = rsc; mon->mode = LRM_MONITOR_SET; mon->interval = 2; mon->target = 1; rsc->ops->set_monitor(rsc,mon); mon = g_new(lrm_mon_t, 1); } else if(operation != NULL) { if(rsc == NULL) { // add it to the list CRM_DEBUG("add_rsc..."); fsa_lrm_conn->lrm_ops->add_rsc( fsa_lrm_conn, rid, get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -2, "class", TRUE), get_xml_attr_nested(msg, rsc_path, DIMOF(rsc_path) -2, "type", TRUE), NULL); rsc = fsa_lrm_conn->lrm_ops->get_rsc( fsa_lrm_conn, rid); } if(rsc == NULL) { cl_log(LOG_ERR, "Could not add resource to LRM"); FNRET(I_FAIL); } // now do the op CRM_DEBUG("performing op %s...", operation); op = g_new(lrm_op_t, 1); op->op_type = operation; op->params = xml2list(msg, rsc_path, DIMOF(rsc_path)); op->timeout = 0; op->user_data = rsc; rsc->ops->perform_op(rsc, op); } FNRET(next_input); } GHashTable * xml2list(xmlNodePtr parent, const char**attr_path, int depth) { xmlNodePtr node_iter = NULL; GHashTable *nvpair_hash = g_hash_table_new(&g_str_hash, &g_str_equal); xmlNodePtr nvpair_list = find_xml_node_nested(parent, attr_path, depth); if(nvpair_list != NULL){ node_iter = nvpair_list->children; while(node_iter != NULL) { const char *key = xmlGetProp(node_iter, "name"); const char *value = xmlGetProp(node_iter, "value"); CRM_DEBUG("Added %s=%s", key, value); g_hash_table_insert (nvpair_hash, cl_strdup(key), cl_strdup(value)); node_iter = node_iter->next; } } return nvpair_hash; } void do_update_resource(lrm_rsc_t *rsc, int status, int rc, const char *op_type) { /* */ xmlNodePtr update, iter; char *tmp = NULL; xmlNodePtr fragment, tmp1; update = create_xml_node(NULL, "node_state"); set_xml_property_copy(update, XML_ATTR_ID, fsa_our_uname); iter = create_xml_node(update, "lrm"); iter = create_xml_node(iter, "lrm_resources"); iter = create_xml_node(iter, "lrm_resource"); set_xml_property_copy(iter, XML_ATTR_ID, rsc->id); set_xml_property_copy(iter, "last_op", op_type); tmp = crm_itoa(status); set_xml_property_copy(iter, "op_status", tmp); cl_free(tmp); tmp = crm_itoa(rc); set_xml_property_copy(iter, "op_code", tmp); cl_free(tmp); set_xml_property_copy(iter, "op_node", fsa_our_uname); tmp1 = create_xml_node(NULL, XML_CIB_TAG_STATE); set_xml_property_copy(tmp1, XML_ATTR_ID, fsa_our_uname); add_node_copy(tmp1, update); fragment = create_cib_fragment(tmp1, NULL); send_request(NULL, fragment, CRM_OPERATION_UPDATE, - NULL, CRM_SYSTEM_DCIB); + NULL, CRM_SYSTEM_DCIB, NULL); free_xml(fragment); free_xml(update); free_xml(tmp1); } enum crmd_fsa_input do_lrm_event(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input cur_input, void *data) { FNIN(); if(cause == C_LRM_MONITOR_CALLBACK) { lrm_mon_t* monitor = (lrm_mon_t*)data; lrm_rsc_t* rsc = monitor->rsc; switch(monitor->status) { case LRM_OP_DONE: CRM_DEBUG("An LRM monitor operation passed"); FNRET(I_NULL); break; case LRM_OP_CANCELLED: case LRM_OP_TIMEOUT: case LRM_OP_NOTSUPPORTED: case LRM_OP_ERROR: cl_log(LOG_ERR, "An LRM monitor operation failed" " or was aborted"); do_update_resource(rsc, monitor->status, monitor->rc, monitor->op_type); break; } } else if(cause == C_LRM_OP_CALLBACK) { lrm_op_t* op = (lrm_op_t*)data; lrm_rsc_t* rsc = op->rsc; switch(op->status) { case LRM_OP_CANCELLED: case LRM_OP_TIMEOUT: case LRM_OP_NOTSUPPORTED: case LRM_OP_ERROR: cl_log(LOG_ERR, "An LRM operation failed" " or was aborted"); // keep going case LRM_OP_DONE: do_update_resource(rsc, op->status, op->rc, op->op_type); break; } } else { FNRET(I_FAIL); } FNRET(I_NULL); }