diff --git a/daemons/based/based_callbacks.c b/daemons/based/based_callbacks.c index bfbe58653b..d8fc7a4d2f 100644 --- a/daemons/based/based_callbacks.c +++ b/daemons/based/based_callbacks.c @@ -1,1376 +1,1379 @@ /* * Copyright 2004-2024 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 #include #include #include #include #include // uint32_t, uint64_t, UINT64_C() #include #include #include // PRIu64 #include #include #include #include #include #include #include #include #define EXIT_ESCALATION_MS 10000 qb_ipcs_service_t *ipcs_ro = NULL; qb_ipcs_service_t *ipcs_rw = NULL; qb_ipcs_service_t *ipcs_shm = NULL; static int cib_process_command(xmlNode *request, const cib__operation_t *operation, cib__op_fn_t op_function, xmlNode **reply, xmlNode **cib_diff, bool privileged); static gboolean cib_common_callback(qb_ipcs_connection_t *c, void *data, size_t size, gboolean privileged); static int32_t cib_ipc_accept(qb_ipcs_connection_t * c, uid_t uid, gid_t gid) { if (cib_shutdown_flag) { crm_info("Ignoring new IPC client [%d] during shutdown", pcmk__client_pid(c)); return -ECONNREFUSED; } if (pcmk__new_client(c, uid, gid) == NULL) { return -ENOMEM; } return 0; } static int32_t cib_ipc_dispatch_rw(qb_ipcs_connection_t * c, void *data, size_t size) { pcmk__client_t *client = pcmk__find_client(c); crm_trace("%p message from %s", c, client->id); return cib_common_callback(c, data, size, TRUE); } static int32_t cib_ipc_dispatch_ro(qb_ipcs_connection_t * c, void *data, size_t size) { pcmk__client_t *client = pcmk__find_client(c); crm_trace("%p message from %s", c, client->id); return cib_common_callback(c, data, size, FALSE); } /* Error code means? */ static int32_t cib_ipc_closed(qb_ipcs_connection_t * c) { pcmk__client_t *client = pcmk__find_client(c); if (client == NULL) { return 0; } crm_trace("Connection %p", c); pcmk__free_client(client); return 0; } static void cib_ipc_destroy(qb_ipcs_connection_t * c) { crm_trace("Connection %p", c); cib_ipc_closed(c); if (cib_shutdown_flag) { cib_shutdown(0); } } struct qb_ipcs_service_handlers ipc_ro_callbacks = { .connection_accept = cib_ipc_accept, .connection_created = NULL, .msg_process = cib_ipc_dispatch_ro, .connection_closed = cib_ipc_closed, .connection_destroyed = cib_ipc_destroy }; struct qb_ipcs_service_handlers ipc_rw_callbacks = { .connection_accept = cib_ipc_accept, .connection_created = NULL, .msg_process = cib_ipc_dispatch_rw, .connection_closed = cib_ipc_closed, .connection_destroyed = cib_ipc_destroy }; /*! * \internal * \brief Create reply XML for a CIB request * * \param[in] op CIB operation type * \param[in] call_id CIB call ID * \param[in] client_id CIB client ID * \param[in] call_options Group of enum cib_call_options flags * \param[in] rc Request return code * \param[in] call_data Request output data * * \return Reply XML (guaranteed not to be \c NULL) * * \note The caller is responsible for freeing the return value using * \p pcmk__xml_free(). */ static xmlNode * create_cib_reply(const char *op, const char *call_id, const char *client_id, int call_options, int rc, xmlNode *call_data) { xmlNode *reply = pcmk__xe_create(NULL, PCMK__XE_CIB_REPLY); crm_xml_add(reply, PCMK__XA_T, PCMK__VALUE_CIB); crm_xml_add(reply, PCMK__XA_CIB_OP, op); crm_xml_add(reply, PCMK__XA_CIB_CALLID, call_id); crm_xml_add(reply, PCMK__XA_CIB_CLIENTID, client_id); crm_xml_add_int(reply, PCMK__XA_CIB_CALLOPT, call_options); crm_xml_add_int(reply, PCMK__XA_CIB_RC, rc); if (call_data != NULL) { xmlNode *wrapper = pcmk__xe_create(reply, PCMK__XE_CIB_CALLDATA); crm_trace("Attaching reply output"); pcmk__xml_copy(wrapper, call_data); } crm_log_xml_explicit(reply, "cib:reply"); return reply; } static void do_local_notify(const xmlNode *notify_src, const char *client_id, bool sync_reply, bool from_peer) { int msg_id = 0; int rc = pcmk_rc_ok; pcmk__client_t *client_obj = NULL; uint32_t flags = crm_ipc_server_event; CRM_CHECK((notify_src != NULL) && (client_id != NULL), return); crm_element_value_int(notify_src, PCMK__XA_CIB_CALLID, &msg_id); client_obj = pcmk__find_client_by_id(client_id); if (client_obj == NULL) { crm_debug("Could not notify client %s%s %s of call %d result: " "client no longer exists", client_id, (from_peer? " (originator of delegated request)" : ""), (sync_reply? "synchronously" : "asynchronously"), msg_id); return; } if (sync_reply) { flags = crm_ipc_flags_none; if (client_obj->ipcs != NULL) { msg_id = client_obj->request_id; client_obj->request_id = 0; } } switch (PCMK__CLIENT_TYPE(client_obj)) { case pcmk__client_ipc: rc = pcmk__ipc_send_xml(client_obj, msg_id, notify_src, flags); break; case pcmk__client_tls: case pcmk__client_tcp: rc = pcmk__remote_send_xml(client_obj->remote, notify_src); break; default: rc = EPROTONOSUPPORT; break; } if (rc == pcmk_rc_ok) { crm_trace("Notified %s client %s%s %s of call %d result", pcmk__client_type_str(PCMK__CLIENT_TYPE(client_obj)), pcmk__client_name(client_obj), (from_peer? " (originator of delegated request)" : ""), (sync_reply? "synchronously" : "asynchronously"), msg_id); } else { crm_warn("Could not notify %s client %s%s %s of call %d result: %s", pcmk__client_type_str(PCMK__CLIENT_TYPE(client_obj)), pcmk__client_name(client_obj), (from_peer? " (originator of delegated request)" : ""), (sync_reply? "synchronously" : "asynchronously"), msg_id, pcmk_rc_str(rc)); } } void cib_common_callback_worker(uint32_t id, uint32_t flags, xmlNode * op_request, pcmk__client_t *cib_client, gboolean privileged) { const char *op = crm_element_value(op_request, PCMK__XA_CIB_OP); int call_options = cib_none; crm_element_value_int(op_request, PCMK__XA_CIB_CALLOPT, &call_options); /* Requests with cib_transaction set should not be sent to based directly * (outside of a commit-transaction request) */ if (pcmk_is_set(call_options, cib_transaction)) { return; } if (pcmk__str_eq(op, CRM_OP_REGISTER, pcmk__str_none)) { if (flags & crm_ipc_client_response) { xmlNode *ack = pcmk__xe_create(NULL, __func__); crm_xml_add(ack, PCMK__XA_CIB_OP, CRM_OP_REGISTER); crm_xml_add(ack, PCMK__XA_CIB_CLIENTID, cib_client->id); pcmk__ipc_send_xml(cib_client, id, ack, flags); cib_client->request_id = 0; pcmk__xml_free(ack); } return; } else if (pcmk__str_eq(op, PCMK__VALUE_CIB_NOTIFY, pcmk__str_none)) { /* Update the notify filters for this client */ int on_off = 0; crm_exit_t status = CRM_EX_OK; uint64_t bit = UINT64_C(0); const char *type = crm_element_value(op_request, PCMK__XA_CIB_NOTIFY_TYPE); crm_element_value_int(op_request, PCMK__XA_CIB_NOTIFY_ACTIVATE, &on_off); crm_debug("Setting %s callbacks %s for client %s", type, (on_off? "on" : "off"), pcmk__client_name(cib_client)); if (pcmk__str_eq(type, PCMK__VALUE_CIB_POST_NOTIFY, pcmk__str_none)) { bit = cib_notify_post; } else if (pcmk__str_eq(type, PCMK__VALUE_CIB_PRE_NOTIFY, pcmk__str_none)) { bit = cib_notify_pre; } else if (pcmk__str_eq(type, PCMK__VALUE_CIB_UPDATE_CONFIRMATION, pcmk__str_none)) { bit = cib_notify_confirm; } else if (pcmk__str_eq(type, PCMK__VALUE_CIB_DIFF_NOTIFY, pcmk__str_none)) { bit = cib_notify_diff; } else { status = CRM_EX_INVALID_PARAM; } if (bit != 0) { if (on_off) { pcmk__set_client_flags(cib_client, bit); } else { pcmk__clear_client_flags(cib_client, bit); } } pcmk__ipc_send_ack(cib_client, id, flags, PCMK__XE_ACK, NULL, status); return; } cib_process_request(op_request, privileged, cib_client); } int32_t cib_common_callback(qb_ipcs_connection_t * c, void *data, size_t size, gboolean privileged) { uint32_t id = 0; uint32_t flags = 0; int call_options = 0; pcmk__client_t *cib_client = pcmk__find_client(c); xmlNode *op_request = pcmk__client_data2xml(cib_client, data, &id, &flags); if (op_request) { crm_element_value_int(op_request, PCMK__XA_CIB_CALLOPT, &call_options); } if (op_request == NULL) { crm_trace("Invalid message from %p", c); pcmk__ipc_send_ack(cib_client, id, flags, PCMK__XE_NACK, NULL, CRM_EX_PROTOCOL); return 0; } else if(cib_client == NULL) { crm_trace("Invalid client %p", c); return 0; } if (pcmk_is_set(call_options, cib_sync_call)) { CRM_LOG_ASSERT(flags & crm_ipc_client_response); CRM_LOG_ASSERT(cib_client->request_id == 0); /* This means the client has two synchronous events in-flight */ cib_client->request_id = id; /* Reply only to the last one */ } if (cib_client->name == NULL) { const char *value = crm_element_value(op_request, PCMK__XA_CIB_CLIENTNAME); if (value == NULL) { cib_client->name = pcmk__itoa(cib_client->pid); } else { cib_client->name = pcmk__str_copy(value); if (pcmk__parse_server(value) != pcmk_ipc_unknown) { pcmk__set_client_flags(cib_client, cib_is_daemon); } } } /* Allow cluster daemons more leeway before being evicted */ if (pcmk_is_set(cib_client->flags, cib_is_daemon)) { const char *qmax = cib_config_lookup(PCMK_OPT_CLUSTER_IPC_LIMIT); pcmk__set_client_queue_max(cib_client, qmax); } crm_xml_add(op_request, PCMK__XA_CIB_CLIENTID, cib_client->id); crm_xml_add(op_request, PCMK__XA_CIB_CLIENTNAME, cib_client->name); CRM_LOG_ASSERT(cib_client->user != NULL); pcmk__update_acl_user(op_request, PCMK__XA_CIB_USER, cib_client->user); cib_common_callback_worker(id, flags, op_request, cib_client, privileged); pcmk__xml_free(op_request); return 0; } static uint64_t ping_seq = 0; static char *ping_digest = NULL; static bool ping_modified_since = FALSE; static gboolean cib_digester_cb(gpointer data) { if (based_is_primary) { char buffer[32]; xmlNode *ping = pcmk__xe_create(NULL, PCMK__XE_PING); ping_seq++; free(ping_digest); ping_digest = NULL; ping_modified_since = FALSE; snprintf(buffer, 32, "%" PRIu64, ping_seq); crm_trace("Requesting peer digests (%s)", buffer); crm_xml_add(ping, PCMK__XA_T, PCMK__VALUE_CIB); crm_xml_add(ping, PCMK__XA_CIB_OP, CRM_OP_PING); crm_xml_add(ping, PCMK__XA_CIB_PING_ID, buffer); crm_xml_add(ping, PCMK_XA_CRM_FEATURE_SET, CRM_FEATURE_SET); pcmk__cluster_send_message(NULL, pcmk_ipc_based, ping); pcmk__xml_free(ping); } return FALSE; } static void process_ping_reply(xmlNode *reply) { uint64_t seq = 0; const char *host = crm_element_value(reply, PCMK__XA_SRC); xmlNode *wrapper = pcmk__xe_first_child(reply, PCMK__XE_CIB_CALLDATA, NULL, NULL); xmlNode *pong = pcmk__xe_first_child(wrapper, NULL, NULL, NULL); const char *seq_s = crm_element_value(pong, PCMK__XA_CIB_PING_ID); const char *digest = crm_element_value(pong, PCMK__XA_DIGEST); if (seq_s == NULL) { crm_debug("Ignoring ping reply with no " PCMK__XA_CIB_PING_ID); return; } else { long long seq_ll; + int rc = pcmk__scan_ll(seq_s, &seq_ll, 0LL); - if (pcmk__scan_ll(seq_s, &seq_ll, 0LL) != pcmk_rc_ok) { + if (rc != pcmk_rc_ok) { + crm_debug("Ignoring ping reply with invalid " PCMK__XA_CIB_PING_ID + " '%s': %s", seq_s, pcmk_rc_str(rc)); return; } seq = (uint64_t) seq_ll; } if(digest == NULL) { crm_trace("Ignoring ping reply %s from %s with no digest", seq_s, host); } else if(seq != ping_seq) { crm_trace("Ignoring out of sequence ping reply %s from %s", seq_s, host); } else if(ping_modified_since) { crm_trace("Ignoring ping reply %s from %s: cib updated since", seq_s, host); } else { if(ping_digest == NULL) { crm_trace("Calculating new digest"); ping_digest = pcmk__digest_xml(the_cib, true); } crm_trace("Processing ping reply %s from %s (%s)", seq_s, host, digest); if (!pcmk__str_eq(ping_digest, digest, pcmk__str_casei)) { xmlNode *wrapper = pcmk__xe_first_child(pong, PCMK__XE_CIB_CALLDATA, NULL, NULL); xmlNode *remote_cib = pcmk__xe_first_child(wrapper, NULL, NULL, NULL); const char *admin_epoch_s = NULL; const char *epoch_s = NULL; const char *num_updates_s = NULL; if (remote_cib != NULL) { admin_epoch_s = crm_element_value(remote_cib, PCMK_XA_ADMIN_EPOCH); epoch_s = crm_element_value(remote_cib, PCMK_XA_EPOCH); num_updates_s = crm_element_value(remote_cib, PCMK_XA_NUM_UPDATES); } crm_notice("Local CIB %s.%s.%s.%s differs from %s: %s.%s.%s.%s %p", crm_element_value(the_cib, PCMK_XA_ADMIN_EPOCH), crm_element_value(the_cib, PCMK_XA_EPOCH), crm_element_value(the_cib, PCMK_XA_NUM_UPDATES), ping_digest, host, pcmk__s(admin_epoch_s, "_"), pcmk__s(epoch_s, "_"), pcmk__s(num_updates_s, "_"), digest, remote_cib); if(remote_cib && remote_cib->children) { // Additional debug xml_calculate_changes(the_cib, remote_cib); pcmk__log_xml_changes(LOG_INFO, remote_cib); crm_trace("End of differences"); } pcmk__xml_free(remote_cib); sync_our_cib(reply, FALSE); } } } static void parse_local_options(const pcmk__client_t *cib_client, const cib__operation_t *operation, int call_options, const char *host, const char *op, gboolean *local_notify, gboolean *needs_reply, gboolean *process, gboolean *needs_forward) { // Process locally and notify local client *process = TRUE; *needs_reply = FALSE; *local_notify = TRUE; *needs_forward = FALSE; if (pcmk_is_set(operation->flags, cib__op_attr_local)) { /* Always process locally if cib__op_attr_local is set. * * @COMPAT: Currently host is ignored. At a compatibility break, throw * an error (from cib_process_request() or earlier) if host is not NULL or * OUR_NODENAME. */ crm_trace("Processing always-local %s op from client %s", op, pcmk__client_name(cib_client)); if (!pcmk__str_eq(host, OUR_NODENAME, pcmk__str_casei|pcmk__str_null_matches)) { crm_warn("Operation '%s' is always local but its target host is " "set to '%s'", op, host); } return; } if (pcmk_is_set(operation->flags, cib__op_attr_modifies) || !pcmk__str_eq(host, OUR_NODENAME, pcmk__str_casei|pcmk__str_null_matches)) { // Forward modifying and non-local requests via cluster *process = FALSE; *needs_reply = FALSE; *local_notify = FALSE; *needs_forward = TRUE; crm_trace("%s op from %s needs to be forwarded to %s", op, pcmk__client_name(cib_client), pcmk__s(host, "all nodes")); return; } if (stand_alone) { crm_trace("Processing %s op from client %s (stand-alone)", op, pcmk__client_name(cib_client)); } else { crm_trace("Processing %saddressed %s op from client %s", ((host != NULL)? "locally " : "un"), op, pcmk__client_name(cib_client)); } } static gboolean parse_peer_options(const cib__operation_t *operation, xmlNode *request, gboolean *local_notify, gboolean *needs_reply, gboolean *process) { /* TODO: What happens when an update comes in after node A * requests the CIB from node B, but before it gets the reply (and * sends out the replace operation)? * * (This may no longer be relevant since legacy mode was dropped; need to * trace code more closely to check.) */ const char *host = NULL; const char *delegated = crm_element_value(request, PCMK__XA_CIB_DELEGATED_FROM); const char *op = crm_element_value(request, PCMK__XA_CIB_OP); const char *originator = crm_element_value(request, PCMK__XA_SRC); const char *reply_to = crm_element_value(request, PCMK__XA_CIB_ISREPLYTO); gboolean is_reply = pcmk__str_eq(reply_to, OUR_NODENAME, pcmk__str_casei); if (originator == NULL) { // Shouldn't be possible originator = "peer"; } if (pcmk__str_eq(op, PCMK__CIB_REQUEST_REPLACE, pcmk__str_none)) { // sync_our_cib() sets PCMK__XA_CIB_ISREPLYTO if (reply_to) { delegated = reply_to; } goto skip_is_reply; } else if (pcmk__str_eq(op, PCMK__CIB_REQUEST_SYNC_TO_ALL, pcmk__str_none)) { // Nothing to do } else if (is_reply && pcmk__str_eq(op, CRM_OP_PING, pcmk__str_casei)) { process_ping_reply(request); return FALSE; } else if (pcmk__str_eq(op, PCMK__CIB_REQUEST_UPGRADE, pcmk__str_none)) { /* Only the DC (node with the oldest software) should process * this operation if PCMK__XA_CIB_SCHEMA_MAX is unset. * * If the DC is happy it will then send out another * PCMK__CIB_REQUEST_UPGRADE which will tell all nodes to do the actual * upgrade. * * Except this time PCMK__XA_CIB_SCHEMA_MAX will be set which puts a * limit on how far newer nodes will go */ const char *max = crm_element_value(request, PCMK__XA_CIB_SCHEMA_MAX); const char *upgrade_rc = crm_element_value(request, PCMK__XA_CIB_UPGRADE_RC); crm_trace("Parsing upgrade %s for %s with max=%s and upgrade_rc=%s", (is_reply? "reply" : "request"), (based_is_primary? "primary" : "secondary"), pcmk__s(max, "none"), pcmk__s(upgrade_rc, "none")); if (upgrade_rc != NULL) { // Our upgrade request was rejected by DC, notify clients of result crm_xml_add(request, PCMK__XA_CIB_RC, upgrade_rc); } else if ((max == NULL) && based_is_primary) { /* We are the DC, check if this upgrade is allowed */ goto skip_is_reply; } else if(max) { /* Ok, go ahead and upgrade to 'max' */ goto skip_is_reply; } else { // Ignore broadcast client requests when we're not primary return FALSE; } } else if (pcmk__xe_attr_is_true(request, PCMK__XA_CIB_UPDATE)) { crm_info("Detected legacy %s global update from %s", op, originator); send_sync_request(NULL); return FALSE; } else if (is_reply && pcmk_is_set(operation->flags, cib__op_attr_modifies)) { crm_trace("Ignoring legacy %s reply sent from %s to local clients", op, originator); return FALSE; } else if (pcmk__str_eq(op, PCMK__CIB_REQUEST_SHUTDOWN, pcmk__str_none)) { *local_notify = FALSE; if (reply_to == NULL) { *process = TRUE; } else { // Not possible? crm_debug("Ignoring shutdown request from %s because reply_to=%s", originator, reply_to); } return *process; } if (is_reply) { crm_trace("Will notify local clients for %s reply from %s", op, originator); *process = FALSE; *needs_reply = FALSE; *local_notify = TRUE; return TRUE; } skip_is_reply: *process = TRUE; *needs_reply = FALSE; *local_notify = pcmk__str_eq(delegated, OUR_NODENAME, pcmk__str_casei); host = crm_element_value(request, PCMK__XA_CIB_HOST); if (pcmk__str_eq(host, OUR_NODENAME, pcmk__str_casei)) { crm_trace("Processing %s request sent to us from %s", op, originator); *needs_reply = TRUE; return TRUE; } else if (host != NULL) { crm_trace("Ignoring %s request intended for CIB manager on %s", op, host); return FALSE; } else if(is_reply == FALSE && pcmk__str_eq(op, CRM_OP_PING, pcmk__str_casei)) { *needs_reply = TRUE; } crm_trace("Processing %s request broadcast by %s call %s on %s " "(local clients will%s be notified)", op, pcmk__s(crm_element_value(request, PCMK__XA_CIB_CLIENTNAME), "client"), pcmk__s(crm_element_value(request, PCMK__XA_CIB_CALLID), "without ID"), originator, (*local_notify? "" : "not")); return TRUE; } /*! * \internal * \brief Forward a CIB request to the appropriate target host(s) * * \param[in] request CIB request to forward */ static void forward_request(xmlNode *request) { const char *op = crm_element_value(request, PCMK__XA_CIB_OP); const char *section = crm_element_value(request, PCMK__XA_CIB_SECTION); const char *host = crm_element_value(request, PCMK__XA_CIB_HOST); const char *originator = crm_element_value(request, PCMK__XA_SRC); const char *client_name = crm_element_value(request, PCMK__XA_CIB_CLIENTNAME); const char *call_id = crm_element_value(request, PCMK__XA_CIB_CALLID); pcmk__node_status_t *peer = NULL; int log_level = LOG_INFO; if (pcmk__str_eq(op, PCMK__CIB_REQUEST_NOOP, pcmk__str_none)) { log_level = LOG_DEBUG; } do_crm_log(log_level, "Forwarding %s operation for section %s to %s (origin=%s/%s/%s)", pcmk__s(op, "invalid"), pcmk__s(section, "all"), pcmk__s(host, "all"), pcmk__s(originator, "local"), pcmk__s(client_name, "unspecified"), pcmk__s(call_id, "unspecified")); crm_xml_add(request, PCMK__XA_CIB_DELEGATED_FROM, OUR_NODENAME); if (host != NULL) { peer = pcmk__get_node(0, host, NULL, pcmk__node_search_cluster_member); } pcmk__cluster_send_message(peer, pcmk_ipc_based, request); // Return the request to its original state pcmk__xe_remove_attr(request, PCMK__XA_CIB_DELEGATED_FROM); } static void send_peer_reply(xmlNode *msg, const char *originator) { const pcmk__node_status_t *node = NULL; if ((msg == NULL) || (originator == NULL)) { return; } // Send reply via cluster to originating node node = pcmk__get_node(0, originator, NULL, pcmk__node_search_cluster_member); crm_trace("Sending request result to %s only", originator); crm_xml_add(msg, PCMK__XA_CIB_ISREPLYTO, originator); pcmk__cluster_send_message(node, pcmk_ipc_based, msg); } /*! * \internal * \brief Handle an IPC or CPG message containing a request * * \param[in,out] request Request XML * \param[in] privileged Whether privileged commands may be run * (see cib_server_ops[] definition) * \param[in] cib_client IPC client that sent request (or NULL if CPG) * * \return Legacy Pacemaker return code */ int cib_process_request(xmlNode *request, gboolean privileged, const pcmk__client_t *cib_client) { // @TODO: Break into multiple smaller functions int call_options = 0; gboolean process = TRUE; // Whether to process request locally now gboolean is_update = TRUE; // Whether request would modify CIB gboolean needs_reply = TRUE; // Whether to build a reply gboolean local_notify = FALSE; // Whether to notify (local) requester gboolean needs_forward = FALSE; // Whether to forward request somewhere else xmlNode *op_reply = NULL; xmlNode *result_diff = NULL; int rc = pcmk_ok; const char *op = crm_element_value(request, PCMK__XA_CIB_OP); const char *originator = crm_element_value(request, PCMK__XA_SRC); const char *host = crm_element_value(request, PCMK__XA_CIB_HOST); const char *call_id = crm_element_value(request, PCMK__XA_CIB_CALLID); const char *client_id = crm_element_value(request, PCMK__XA_CIB_CLIENTID); const char *client_name = crm_element_value(request, PCMK__XA_CIB_CLIENTNAME); const char *reply_to = crm_element_value(request, PCMK__XA_CIB_ISREPLYTO); const cib__operation_t *operation = NULL; cib__op_fn_t op_function = NULL; crm_element_value_int(request, PCMK__XA_CIB_CALLOPT, &call_options); if ((host != NULL) && (*host == '\0')) { host = NULL; } if (cib_client == NULL) { crm_trace("Processing peer %s operation from %s/%s on %s intended for %s (reply=%s)", op, pcmk__s(client_name, "client"), call_id, originator, pcmk__s(host, "all"), reply_to); } else { crm_xml_add(request, PCMK__XA_SRC, OUR_NODENAME); crm_trace("Processing local %s operation from %s/%s intended for %s", op, pcmk__s(client_name, "client"), call_id, pcmk__s(host, "all")); } rc = cib__get_operation(op, &operation); rc = pcmk_rc2legacy(rc); if (rc != pcmk_ok) { /* TODO: construct error reply? */ crm_err("Pre-processing of command failed: %s", pcmk_strerror(rc)); return rc; } op_function = based_get_op_function(operation); if (op_function == NULL) { crm_err("Operation %s not supported by CIB manager", op); return -EOPNOTSUPP; } if (cib_client != NULL) { parse_local_options(cib_client, operation, call_options, host, op, &local_notify, &needs_reply, &process, &needs_forward); } else if (!parse_peer_options(operation, request, &local_notify, &needs_reply, &process)) { return rc; } if (pcmk_is_set(call_options, cib_transaction)) { /* All requests in a transaction are processed locally against a working * CIB copy, and we don't notify for individual requests because the * entire transaction is atomic. * * We still call the option parser functions above, for the sake of log * messages and checking whether we're the target for peer requests. */ process = TRUE; needs_reply = FALSE; local_notify = FALSE; needs_forward = FALSE; } is_update = pcmk_is_set(operation->flags, cib__op_attr_modifies); if (pcmk_is_set(call_options, cib_discard_reply)) { /* If the request will modify the CIB, and we are in legacy mode, we * need to build a reply so we can broadcast a diff, even if the * requester doesn't want one. */ needs_reply = FALSE; local_notify = FALSE; crm_trace("Client is not interested in the reply"); } if (needs_forward) { forward_request(request); return rc; } if (cib_status != pcmk_ok) { rc = cib_status; crm_err("Operation ignored, cluster configuration is invalid." " Please repair and restart: %s", pcmk_strerror(cib_status)); op_reply = create_cib_reply(op, call_id, client_id, call_options, rc, the_cib); } else if (process) { time_t finished = 0; time_t now = time(NULL); int level = LOG_INFO; const char *section = crm_element_value(request, PCMK__XA_CIB_SECTION); const char *admin_epoch_s = NULL; const char *epoch_s = NULL; const char *num_updates_s = NULL; rc = cib_process_command(request, operation, op_function, &op_reply, &result_diff, privileged); if (!is_update) { level = LOG_TRACE; } else if (pcmk__xe_attr_is_true(request, PCMK__XA_CIB_UPDATE)) { switch (rc) { case pcmk_ok: level = LOG_INFO; break; case -pcmk_err_old_data: case -pcmk_err_diff_resync: case -pcmk_err_diff_failed: level = LOG_TRACE; break; default: level = LOG_ERR; } } else if (rc != pcmk_ok) { level = LOG_WARNING; } if (the_cib != NULL) { admin_epoch_s = crm_element_value(the_cib, PCMK_XA_ADMIN_EPOCH); epoch_s = crm_element_value(the_cib, PCMK_XA_EPOCH); num_updates_s = crm_element_value(the_cib, PCMK_XA_NUM_UPDATES); } do_crm_log(level, "Completed %s operation for section %s: %s (rc=%d, origin=%s/%s/%s, version=%s.%s.%s)", op, section ? section : "'all'", pcmk_strerror(rc), rc, originator ? originator : "local", pcmk__s(client_name, "client"), call_id, pcmk__s(admin_epoch_s, "0"), pcmk__s(epoch_s, "0"), pcmk__s(num_updates_s, "0")); finished = time(NULL); if ((finished - now) > 3) { crm_trace("%s operation took %lds to complete", op, (long)(finished - now)); crm_write_blackbox(0, NULL); } if (op_reply == NULL && (needs_reply || local_notify)) { crm_err("Unexpected NULL reply to message"); crm_log_xml_err(request, "null reply"); needs_reply = FALSE; local_notify = FALSE; } } if (is_update) { crm_trace("Completed pre-sync update from %s/%s/%s%s", originator ? originator : "local", pcmk__s(client_name, "client"), call_id, local_notify?" with local notification":""); } else if (!needs_reply || stand_alone) { // This was a non-originating secondary update crm_trace("Completed update as secondary"); } else if ((cib_client == NULL) && !pcmk_is_set(call_options, cib_discard_reply)) { if (is_update == FALSE || result_diff == NULL) { crm_trace("Request not broadcast: R/O call"); } else if (rc != pcmk_ok) { crm_trace("Request not broadcast: call failed: %s", pcmk_strerror(rc)); } else { crm_trace("Directing reply to %s", originator); } send_peer_reply(op_reply, originator); } if (local_notify && client_id) { crm_trace("Performing local %ssync notification for %s", (pcmk_is_set(call_options, cib_sync_call)? "" : "a"), client_id); if (process == FALSE) { do_local_notify(request, client_id, pcmk_is_set(call_options, cib_sync_call), (cib_client == NULL)); } else { do_local_notify(op_reply, client_id, pcmk_is_set(call_options, cib_sync_call), (cib_client == NULL)); } } pcmk__xml_free(op_reply); pcmk__xml_free(result_diff); return rc; } /*! * \internal * \brief Get a CIB operation's input from the request XML * * \param[in] request CIB request XML * \param[in] type CIB operation type * \param[out] section Where to store CIB section name * * \return Input XML for CIB operation * * \note If not \c NULL, the return value is a non-const pointer to part of * \p request. The caller should not free it directly. */ static xmlNode * prepare_input(const xmlNode *request, enum cib__op_type type, const char **section) { xmlNode *wrapper = pcmk__xe_first_child(request, PCMK__XE_CIB_CALLDATA, NULL, NULL); xmlNode *input = pcmk__xe_first_child(wrapper, NULL, NULL, NULL); if (type == cib__op_apply_patch) { *section = NULL; } else { *section = crm_element_value(request, PCMK__XA_CIB_SECTION); } // Grab the specified section if ((*section != NULL) && pcmk__xe_is(input, PCMK_XE_CIB)) { input = pcmk_find_cib_element(input, *section); } return input; } #define XPATH_CONFIG_CHANGE \ "//" PCMK_XE_CHANGE \ "[contains(@" PCMK_XA_PATH ",'/" PCMK_XE_CRM_CONFIG "/')]" static bool contains_config_change(xmlNode *diff) { bool changed = false; if (diff) { xmlXPathObject *xpathObj = xpath_search(diff, XPATH_CONFIG_CHANGE); if (numXpathResults(xpathObj) > 0) { changed = true; } freeXpathObject(xpathObj); } return changed; } static int cib_process_command(xmlNode *request, const cib__operation_t *operation, cib__op_fn_t op_function, xmlNode **reply, xmlNode **cib_diff, bool privileged) { xmlNode *input = NULL; xmlNode *output = NULL; xmlNode *result_cib = NULL; int call_options = 0; const char *op = NULL; const char *section = NULL; const char *call_id = crm_element_value(request, PCMK__XA_CIB_CALLID); const char *client_id = crm_element_value(request, PCMK__XA_CIB_CLIENTID); const char *client_name = crm_element_value(request, PCMK__XA_CIB_CLIENTNAME); const char *originator = crm_element_value(request, PCMK__XA_SRC); int rc = pcmk_ok; bool config_changed = false; bool manage_counters = true; static mainloop_timer_t *digest_timer = NULL; CRM_ASSERT(cib_status == pcmk_ok); if(digest_timer == NULL) { digest_timer = mainloop_timer_add("digester", 5000, FALSE, cib_digester_cb, NULL); } *reply = NULL; *cib_diff = NULL; /* Start processing the request... */ op = crm_element_value(request, PCMK__XA_CIB_OP); crm_element_value_int(request, PCMK__XA_CIB_CALLOPT, &call_options); if (!privileged && pcmk_is_set(operation->flags, cib__op_attr_privileged)) { rc = -EACCES; crm_trace("Failed due to lack of privileges: %s", pcmk_strerror(rc)); goto done; } input = prepare_input(request, operation->type, §ion); if (!pcmk_is_set(operation->flags, cib__op_attr_modifies)) { rc = cib_perform_op(NULL, op, call_options, op_function, true, section, request, input, false, &config_changed, &the_cib, &result_cib, NULL, &output); CRM_CHECK(result_cib == NULL, pcmk__xml_free(result_cib)); goto done; } /* @COMPAT: Handle a valid write action (legacy) * * @TODO: Re-evaluate whether this is all truly legacy. The cib_force_diff * portion is. However, PCMK__XA_CIB_UPDATE may be set by a sync operation * even in non-legacy mode, and manage_counters tells xml_create_patchset() * whether to update version/epoch info. */ if (pcmk__xe_attr_is_true(request, PCMK__XA_CIB_UPDATE)) { manage_counters = false; cib__set_call_options(call_options, "call", cib_force_diff); crm_trace("Global update detected"); CRM_LOG_ASSERT(pcmk__str_any_of(op, PCMK__CIB_REQUEST_APPLY_PATCH, PCMK__CIB_REQUEST_REPLACE, NULL)); } ping_modified_since = TRUE; // result_cib must not be modified after cib_perform_op() returns rc = cib_perform_op(NULL, op, call_options, op_function, false, section, request, input, manage_counters, &config_changed, &the_cib, &result_cib, cib_diff, &output); /* Always write to disk for successful ops with the flag set. This also * negates the need to detect ordering changes. */ if ((rc == pcmk_ok) && pcmk_is_set(operation->flags, cib__op_attr_writes_through)) { config_changed = true; } if ((rc == pcmk_ok) && !pcmk_any_flags_set(call_options, cib_dryrun|cib_transaction)) { if (result_cib != the_cib) { if (pcmk_is_set(operation->flags, cib__op_attr_writes_through)) { config_changed = true; } crm_trace("Activating %s->%s%s", crm_element_value(the_cib, PCMK_XA_NUM_UPDATES), crm_element_value(result_cib, PCMK_XA_NUM_UPDATES), (config_changed? " changed" : "")); rc = activateCibXml(result_cib, config_changed, op); if (rc != pcmk_ok) { crm_err("Failed to activate new CIB: %s", pcmk_strerror(rc)); } } if ((rc == pcmk_ok) && contains_config_change(*cib_diff)) { cib_read_config(config_hash, result_cib); } /* @COMPAT Nodes older than feature set 3.19.0 don't support * transactions. In a mixed-version cluster with nodes <3.19.0, we must * sync the updated CIB, so that the older nodes receive the changes. * Any node that has already applied the transaction will ignore the * synced CIB. * * To ensure the updated CIB is synced from only one node, we sync it * from the originator. */ if ((operation->type == cib__op_commit_transact) && pcmk__str_eq(originator, OUR_NODENAME, pcmk__str_casei) && compare_version(crm_element_value(the_cib, PCMK_XA_CRM_FEATURE_SET), "3.19.0") < 0) { sync_our_cib(request, TRUE); } mainloop_timer_stop(digest_timer); mainloop_timer_start(digest_timer); } else if (rc == -pcmk_err_schema_validation) { CRM_ASSERT(result_cib != the_cib); if (output != NULL) { crm_log_xml_info(output, "cib:output"); pcmk__xml_free(output); } output = result_cib; } else { crm_trace("Not activating %d %d %s", rc, pcmk_is_set(call_options, cib_dryrun), crm_element_value(result_cib, PCMK_XA_NUM_UPDATES)); if (result_cib != the_cib) { pcmk__xml_free(result_cib); } } if (!pcmk_any_flags_set(call_options, cib_dryrun|cib_inhibit_notify|cib_transaction)) { crm_trace("Sending notifications %d", pcmk_is_set(call_options, cib_dryrun)); cib_diff_notify(op, rc, call_id, client_id, client_name, originator, input, *cib_diff); } pcmk__log_xml_patchset(LOG_TRACE, *cib_diff); done: if (!pcmk_is_set(call_options, cib_discard_reply)) { *reply = create_cib_reply(op, call_id, client_id, call_options, rc, output); } if (output != the_cib) { pcmk__xml_free(output); } crm_trace("done"); return rc; } void cib_peer_callback(xmlNode * msg, void *private_data) { const char *reason = NULL; const char *originator = crm_element_value(msg, PCMK__XA_SRC); if (pcmk__peer_cache == NULL) { reason = "membership not established"; goto bail; } if (crm_element_value(msg, PCMK__XA_CIB_CLIENTNAME) == NULL) { crm_xml_add(msg, PCMK__XA_CIB_CLIENTNAME, originator); } /* crm_log_xml_trace(msg, "Peer[inbound]"); */ cib_process_request(msg, TRUE, NULL); return; bail: if (reason) { const char *op = crm_element_value(msg, PCMK__XA_CIB_OP); crm_warn("Discarding %s message from %s: %s", op, originator, reason); } } static gboolean cib_force_exit(gpointer data) { crm_notice("Forcing exit!"); terminate_cib(__func__, CRM_EX_ERROR); return FALSE; } static void disconnect_remote_client(gpointer key, gpointer value, gpointer user_data) { pcmk__client_t *a_client = value; crm_err("Can't disconnect client %s: Not implemented", pcmk__client_name(a_client)); } static void initiate_exit(void) { int active = 0; xmlNode *leaving = NULL; active = pcmk__cluster_num_active_nodes(); if (active < 2) { // This is the last active node terminate_cib(__func__, 0); return; } crm_info("Sending shutdown request to %d peers", active); leaving = pcmk__xe_create(NULL, PCMK__XE_EXIT_NOTIFICATION); crm_xml_add(leaving, PCMK__XA_T, PCMK__VALUE_CIB); crm_xml_add(leaving, PCMK__XA_CIB_OP, PCMK__CIB_REQUEST_SHUTDOWN); pcmk__cluster_send_message(NULL, pcmk_ipc_based, leaving); pcmk__xml_free(leaving); g_timeout_add(EXIT_ESCALATION_MS, cib_force_exit, NULL); } void cib_shutdown(int nsig) { struct qb_ipcs_stats srv_stats; if (cib_shutdown_flag == FALSE) { int disconnects = 0; qb_ipcs_connection_t *c = NULL; cib_shutdown_flag = TRUE; c = qb_ipcs_connection_first_get(ipcs_rw); while (c != NULL) { qb_ipcs_connection_t *last = c; c = qb_ipcs_connection_next_get(ipcs_rw, last); crm_debug("Disconnecting r/w client %p...", last); qb_ipcs_disconnect(last); qb_ipcs_connection_unref(last); disconnects++; } c = qb_ipcs_connection_first_get(ipcs_ro); while (c != NULL) { qb_ipcs_connection_t *last = c; c = qb_ipcs_connection_next_get(ipcs_ro, last); crm_debug("Disconnecting r/o client %p...", last); qb_ipcs_disconnect(last); qb_ipcs_connection_unref(last); disconnects++; } c = qb_ipcs_connection_first_get(ipcs_shm); while (c != NULL) { qb_ipcs_connection_t *last = c; c = qb_ipcs_connection_next_get(ipcs_shm, last); crm_debug("Disconnecting non-blocking r/w client %p...", last); qb_ipcs_disconnect(last); qb_ipcs_connection_unref(last); disconnects++; } disconnects += pcmk__ipc_client_count(); crm_debug("Disconnecting %d remote clients", pcmk__ipc_client_count()); pcmk__foreach_ipc_client(disconnect_remote_client, NULL); crm_info("Disconnected %d clients", disconnects); } qb_ipcs_stats_get(ipcs_rw, &srv_stats, QB_FALSE); if (pcmk__ipc_client_count() == 0) { crm_info("All clients disconnected (%d)", srv_stats.active_connections); initiate_exit(); } else { crm_info("Waiting on %d clients to disconnect (%d)", pcmk__ipc_client_count(), srv_stats.active_connections); } } extern int remote_fd; extern int remote_tls_fd; /*! * \internal * \brief Close remote sockets, free the global CIB and quit * * \param[in] caller Name of calling function (for log message) * \param[in] fast If -1, skip disconnect; if positive, exit that */ void terminate_cib(const char *caller, int fast) { crm_info("%s: Exiting%s...", caller, (fast > 0)? " fast" : mainloop ? " from mainloop" : ""); if (remote_fd > 0) { close(remote_fd); remote_fd = 0; } if (remote_tls_fd > 0) { close(remote_tls_fd); remote_tls_fd = 0; } uninitializeCib(); if (fast > 0) { /* Quit fast on error */ pcmk__stop_based_ipc(ipcs_ro, ipcs_rw, ipcs_shm); crm_exit(fast); } else if ((mainloop != NULL) && g_main_loop_is_running(mainloop)) { /* Quit via returning from the main loop. If fast == -1, we skip the * disconnect here, and it will be done when the main loop returns * (this allows the peer status callback to avoid messing with the * peer caches). */ if (fast == 0) { pcmk_cluster_disconnect(crm_cluster); } g_main_loop_quit(mainloop); } else { /* Quit via clean exit. Even the peer status callback can disconnect * here, because we're not returning control to the caller. */ pcmk_cluster_disconnect(crm_cluster); pcmk__stop_based_ipc(ipcs_ro, ipcs_rw, ipcs_shm); crm_exit(CRM_EX_OK); } } diff --git a/daemons/controld/controld_join_dc.c b/daemons/controld/controld_join_dc.c index 466d4d4782..146115efb6 100644 --- a/daemons/controld/controld_join_dc.c +++ b/daemons/controld/controld_join_dc.c @@ -1,1079 +1,1090 @@ /* * Copyright 2004-2024 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 // PRIu32 #include // bool, true, false #include // NULL #include // free(), etc. #include // gboolean, etc. #include // xmlNode #include #include #include #include static char *max_generation_from = NULL; static xmlNodePtr max_generation_xml = NULL; /*! * \internal * \brief Nodes from which a CIB sync has failed since the peer joined * * This table is of the form (node_name -> join_id). \p node_name is * the name of a client node from which a CIB \p sync_from() call has failed in * \p do_dc_join_finalize() since the client joined the cluster as a peer. * \p join_id is the ID of the join round in which the \p sync_from() failed, * and is intended for use in nack log messages. */ static GHashTable *failed_sync_nodes = NULL; void finalize_join_for(gpointer key, gpointer value, gpointer user_data); void finalize_sync_callback(xmlNode * msg, int call_id, int rc, xmlNode * output, void *user_data); gboolean check_join_state(enum crmd_fsa_state cur_state, const char *source); /* Numeric counter used to identify join rounds (an unsigned int would be * appropriate, except we get and set it in XML as int) */ static int current_join_id = 0; /*! * \internal * \brief Get log-friendly string equivalent of a controller group join phase * * \param[in] phase Join phase * * \return Log-friendly string equivalent of \p phase */ static const char * join_phase_text(enum controld_join_phase phase) { switch (phase) { case controld_join_nack: return "nack"; case controld_join_none: return "none"; case controld_join_welcomed: return "welcomed"; case controld_join_integrated: return "integrated"; case controld_join_finalized: return "finalized"; case controld_join_confirmed: return "confirmed"; default: return "invalid"; } } /*! * \internal * \brief Destroy the hash table containing failed sync nodes */ void controld_destroy_failed_sync_table(void) { if (failed_sync_nodes != NULL) { g_hash_table_destroy(failed_sync_nodes); failed_sync_nodes = NULL; } } /*! * \internal * \brief Remove a node from the failed sync nodes table if present * * \param[in] node_name Node name to remove */ void controld_remove_failed_sync_node(const char *node_name) { if (failed_sync_nodes != NULL) { g_hash_table_remove(failed_sync_nodes, (gchar *) node_name); } } /*! * \internal * \brief Add to a hash table a node whose CIB failed to sync * * \param[in] node_name Name of node whose CIB failed to sync * \param[in] join_id Join round when the failure occurred */ static void record_failed_sync_node(const char *node_name, gint join_id) { if (failed_sync_nodes == NULL) { failed_sync_nodes = pcmk__strikey_table(g_free, NULL); } /* If the node is already in the table then we failed to nack it during the * filter offer step */ CRM_LOG_ASSERT(g_hash_table_insert(failed_sync_nodes, g_strdup(node_name), GINT_TO_POINTER(join_id))); } /*! * \internal * \brief Look up a node name in the failed sync table * * \param[in] node_name Name of node to look up * \param[out] join_id Where to store the join ID of when the sync failed * * \return Standard Pacemaker return code. Specifically, \p pcmk_rc_ok if the * node name was found, or \p pcmk_rc_node_unknown otherwise. * \note \p *join_id is set to -1 if the node is not found. */ static int lookup_failed_sync_node(const char *node_name, gint *join_id) { *join_id = -1; if (failed_sync_nodes != NULL) { gpointer result = g_hash_table_lookup(failed_sync_nodes, (gchar *) node_name); if (result != NULL) { *join_id = GPOINTER_TO_INT(result); return pcmk_rc_ok; } } return pcmk_rc_node_unknown; } void crm_update_peer_join(const char *source, pcmk__node_status_t *node, enum controld_join_phase phase) { enum controld_join_phase last = controld_get_join_phase(node); CRM_CHECK(node != NULL, return); /* Remote nodes do not participate in joins */ if (pcmk_is_set(node->flags, pcmk__node_status_remote)) { return; } if (phase == last) { crm_trace("Node %s join-%d phase is still %s " QB_XS " nodeid=%" PRIu32 " source=%s", node->name, current_join_id, join_phase_text(last), node->cluster_layer_id, source); return; } if ((phase <= controld_join_none) || (phase == (last + 1))) { struct controld_node_status_data *data = pcmk__assert_alloc(1, sizeof(struct controld_node_status_data)); data->join_phase = phase; node->user_data = data; crm_trace("Node %s join-%d phase is now %s (was %s) " QB_XS " nodeid=%" PRIu32 " source=%s", node->name, current_join_id, join_phase_text(phase), join_phase_text(last), node->cluster_layer_id, source); return; } crm_warn("Rejecting join-%d phase update for node %s because can't go from " "%s to %s " QB_XS " nodeid=%" PRIu32 " source=%s", current_join_id, node->name, join_phase_text(last), join_phase_text(phase), node->cluster_layer_id, source); } static void start_join_round(void) { GHashTableIter iter; pcmk__node_status_t *peer = NULL; crm_debug("Starting new join round join-%d", current_join_id); g_hash_table_iter_init(&iter, pcmk__peer_cache); while (g_hash_table_iter_next(&iter, NULL, (gpointer *) &peer)) { crm_update_peer_join(__func__, peer, controld_join_none); } if (max_generation_from != NULL) { free(max_generation_from); max_generation_from = NULL; } if (max_generation_xml != NULL) { pcmk__xml_free(max_generation_xml); max_generation_xml = NULL; } controld_clear_fsa_input_flags(R_HAVE_CIB); } /*! * \internal * \brief Create a join message from the DC * * \param[in] join_op Join operation name * \param[in] host_to Recipient of message */ static xmlNode * create_dc_message(const char *join_op, const char *host_to) { xmlNode *msg = pcmk__new_request(pcmk_ipc_controld, CRM_SYSTEM_DC, host_to, CRM_SYSTEM_CRMD, join_op, NULL); /* Identify which election this is a part of */ crm_xml_add_int(msg, PCMK__XA_JOIN_ID, current_join_id); /* Add a field specifying whether the DC is shutting down. This keeps the * joining node from fencing the old DC if it becomes the new DC. */ pcmk__xe_set_bool_attr(msg, PCMK__XA_DC_LEAVING, pcmk_is_set(controld_globals.fsa_input_register, R_SHUTDOWN)); return msg; } static void join_make_offer(gpointer key, gpointer value, gpointer user_data) { /* @TODO We don't use user_data except to distinguish one particular call * from others. Make this clearer. */ xmlNode *offer = NULL; pcmk__node_status_t *member = (pcmk__node_status_t *) value; CRM_ASSERT(member != NULL); if (!pcmk__cluster_is_node_active(member)) { crm_info("Not making join-%d offer to inactive node %s", current_join_id, pcmk__s(member->name, "with unknown name")); if ((member->expected == NULL) && pcmk__str_eq(member->state, PCMK__VALUE_LOST, pcmk__str_none)) { /* You would think this unsafe, but in fact this plus an * active resource is what causes it to be fenced. * * Yes, this does mean that any node that dies at the same * time as the old DC and is not running resource (still) * won't be fenced. * * I'm not happy about this either. */ pcmk__update_peer_expected(__func__, member, CRMD_JOINSTATE_DOWN); } return; } if (member->name == NULL) { crm_info("Not making join-%d offer to node uuid %s with unknown name", current_join_id, member->xml_id); return; } if (controld_globals.membership_id != controld_globals.peer_seq) { controld_globals.membership_id = controld_globals.peer_seq; crm_info("Making join-%d offers based on membership event %llu", current_join_id, controld_globals.peer_seq); } if (user_data != NULL) { enum controld_join_phase phase = controld_get_join_phase(member); if (phase > controld_join_none) { crm_info("Not making join-%d offer to already known node %s (%s)", current_join_id, member->name, join_phase_text(phase)); return; } } crm_update_peer_join(__func__, (pcmk__node_status_t*) member, controld_join_none); offer = create_dc_message(CRM_OP_JOIN_OFFER, member->name); // Advertise our feature set so the joining node can bail if not compatible crm_xml_add(offer, PCMK_XA_CRM_FEATURE_SET, CRM_FEATURE_SET); crm_info("Sending join-%d offer to %s", current_join_id, member->name); pcmk__cluster_send_message(member, pcmk_ipc_controld, offer); pcmk__xml_free(offer); crm_update_peer_join(__func__, member, controld_join_welcomed); } /* A_DC_JOIN_OFFER_ALL */ void do_dc_join_offer_all(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { int count; /* Reset everyone's status back to down or in_ccm in the CIB. * Any nodes that are active in the CIB but not in the cluster membership * will be seen as offline by the scheduler anyway. */ current_join_id++; start_join_round(); update_dc(NULL); if (cause == C_HA_MESSAGE && current_input == I_NODE_JOIN) { crm_info("A new node joined the cluster"); } g_hash_table_foreach(pcmk__peer_cache, join_make_offer, NULL); count = crmd_join_phase_count(controld_join_welcomed); crm_info("Waiting on join-%d requests from %d outstanding node%s", current_join_id, count, pcmk__plural_s(count)); // Don't waste time by invoking the scheduler yet } /* A_DC_JOIN_OFFER_ONE */ void do_dc_join_offer_one(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { pcmk__node_status_t *member = NULL; ha_msg_input_t *welcome = NULL; int count; const char *join_to = NULL; if (msg_data->data == NULL) { crm_info("Making join-%d offers to any unconfirmed nodes " "because an unknown node joined", current_join_id); g_hash_table_foreach(pcmk__peer_cache, join_make_offer, &member); check_join_state(cur_state, __func__); return; } welcome = fsa_typed_data(fsa_dt_ha_msg); if (welcome == NULL) { // fsa_typed_data() already logged an error return; } join_to = crm_element_value(welcome->msg, PCMK__XA_SRC); if (join_to == NULL) { crm_err("Can't make join-%d offer to unknown node", current_join_id); return; } member = pcmk__get_node(0, join_to, NULL, pcmk__node_search_cluster_member); /* It is possible that a node will have been sick or starting up when the * original offer was made. However, it will either re-announce itself in * due course, or we can re-store the original offer on the client. */ crm_update_peer_join(__func__, member, controld_join_none); join_make_offer(NULL, member, NULL); /* If the offer isn't to the local node, make an offer to the local node as * well, to ensure the correct value for max_generation_from. */ if (!controld_is_local_node(join_to)) { member = controld_get_local_node_status(); join_make_offer(NULL, member, NULL); } /* This was a genuine join request; cancel any existing transition and * invoke the scheduler. */ abort_transition(PCMK_SCORE_INFINITY, pcmk__graph_restart, "Node join", NULL); count = crmd_join_phase_count(controld_join_welcomed); crm_info("Waiting on join-%d requests from %d outstanding node%s", current_join_id, count, pcmk__plural_s(count)); // Don't waste time by invoking the scheduler yet } static int compare_int_fields(xmlNode * left, xmlNode * right, const char *field) { const char *elem_l = crm_element_value(left, field); const char *elem_r = crm_element_value(right, field); long long int_elem_l; long long int_elem_r; - pcmk__scan_ll(elem_l, &int_elem_l, -1LL); - pcmk__scan_ll(elem_r, &int_elem_r, -1LL); + int rc = pcmk_rc_ok; + + rc = pcmk__scan_ll(elem_l, &int_elem_l, -1LL); + if (rc != pcmk_rc_ok) { // Shouldn't be possible + crm_warn("Comparing current CIB %s as -1 " + "because '%s' is not an integer", field, elem_l); + } + + rc = pcmk__scan_ll(elem_r, &int_elem_r, -1LL); + if (rc != pcmk_rc_ok) { // Shouldn't be possible + crm_warn("Comparing joining node's CIB %s as -1 " + "because '%s' is not an integer", field, elem_r); + } if (int_elem_l < int_elem_r) { return -1; } else if (int_elem_l > int_elem_r) { return 1; } return 0; } /* A_DC_JOIN_PROCESS_REQ */ void do_dc_join_filter_offer(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { xmlNode *generation = NULL; int cmp = 0; int join_id = -1; int count = 0; gint value = 0; gboolean ack_nack_bool = TRUE; ha_msg_input_t *join_ack = fsa_typed_data(fsa_dt_ha_msg); const char *join_from = crm_element_value(join_ack->msg, PCMK__XA_SRC); const char *ref = crm_element_value(join_ack->msg, PCMK_XA_REFERENCE); const char *join_version = crm_element_value(join_ack->msg, PCMK_XA_CRM_FEATURE_SET); pcmk__node_status_t *join_node = NULL; if (join_from == NULL) { crm_err("Ignoring invalid join request without node name"); return; } join_node = pcmk__get_node(0, join_from, NULL, pcmk__node_search_cluster_member); crm_element_value_int(join_ack->msg, PCMK__XA_JOIN_ID, &join_id); if (join_id != current_join_id) { crm_debug("Ignoring join-%d request from %s because we are on join-%d", join_id, join_from, current_join_id); check_join_state(cur_state, __func__); return; } generation = join_ack->xml; if (max_generation_xml != NULL && generation != NULL) { int lpc = 0; const char *attributes[] = { PCMK_XA_ADMIN_EPOCH, PCMK_XA_EPOCH, PCMK_XA_NUM_UPDATES, }; /* It's not obvious that join_ack->xml is the PCMK__XE_GENERATION_TUPLE * element from the join client. The "if" guard is for clarity. */ if (pcmk__xe_is(generation, PCMK__XE_GENERATION_TUPLE)) { for (lpc = 0; cmp == 0 && lpc < PCMK__NELEM(attributes); lpc++) { cmp = compare_int_fields(max_generation_xml, generation, attributes[lpc]); } } else { // Should always be PCMK__XE_GENERATION_TUPLE CRM_LOG_ASSERT(false); } } if (ref == NULL) { ref = "none"; // for logging only } if (lookup_failed_sync_node(join_from, &value) == pcmk_rc_ok) { crm_err("Rejecting join-%d request from node %s because we failed to " "sync its CIB in join-%d " QB_XS " ref=%s", join_id, join_from, value, ref); ack_nack_bool = FALSE; } else if (!pcmk__cluster_is_node_active(join_node)) { if (match_down_event(join_from) != NULL) { /* The join request was received after the node was fenced or * otherwise shutdown in a way that we're aware of. No need to log * an error in this rare occurrence; we know the client was recently * shut down, and receiving a lingering in-flight request is not * cause for alarm. */ crm_debug("Rejecting join-%d request from inactive node %s " QB_XS " ref=%s", join_id, join_from, ref); } else { crm_err("Rejecting join-%d request from inactive node %s " QB_XS " ref=%s", join_id, join_from, ref); } ack_nack_bool = FALSE; } else if (generation == NULL) { crm_err("Rejecting invalid join-%d request from node %s " "missing CIB generation " QB_XS " ref=%s", join_id, join_from, ref); ack_nack_bool = FALSE; } else if ((join_version == NULL) || !feature_set_compatible(CRM_FEATURE_SET, join_version)) { crm_err("Rejecting join-%d request from node %s because feature set %s" " is incompatible with ours (%s) " QB_XS " ref=%s", join_id, join_from, (join_version? join_version : "pre-3.1.0"), CRM_FEATURE_SET, ref); ack_nack_bool = FALSE; } else if (max_generation_xml == NULL) { const char *validation = crm_element_value(generation, PCMK_XA_VALIDATE_WITH); if (pcmk__get_schema(validation) == NULL) { crm_err("Rejecting join-%d request from %s (with first CIB " "generation) due to unknown schema version %s " QB_XS " ref=%s", join_id, join_from, pcmk__s(validation, "(missing)"), ref); ack_nack_bool = FALSE; } else { crm_debug("Accepting join-%d request from %s (with first CIB " "generation) " QB_XS " ref=%s", join_id, join_from, ref); max_generation_xml = pcmk__xml_copy(NULL, generation); pcmk__str_update(&max_generation_from, join_from); } } else if ((cmp < 0) || ((cmp == 0) && controld_is_local_node(join_from))) { const char *validation = crm_element_value(generation, PCMK_XA_VALIDATE_WITH); if (pcmk__get_schema(validation) == NULL) { crm_err("Rejecting join-%d request from %s (with better CIB " "generation than current best from %s) due to unknown " "schema version %s " QB_XS " ref=%s", join_id, join_from, max_generation_from, pcmk__s(validation, "(missing)"), ref); ack_nack_bool = FALSE; } else { crm_debug("Accepting join-%d request from %s (with better CIB " "generation than current best from %s) " QB_XS " ref=%s", join_id, join_from, max_generation_from, ref); crm_log_xml_debug(max_generation_xml, "Old max generation"); crm_log_xml_debug(generation, "New max generation"); pcmk__xml_free(max_generation_xml); max_generation_xml = pcmk__xml_copy(NULL, join_ack->xml); pcmk__str_update(&max_generation_from, join_from); } } else { crm_debug("Accepting join-%d request from %s " QB_XS " ref=%s", join_id, join_from, ref); } if (!ack_nack_bool) { crm_update_peer_join(__func__, join_node, controld_join_nack); pcmk__update_peer_expected(__func__, join_node, CRMD_JOINSTATE_NACK); } else { crm_update_peer_join(__func__, join_node, controld_join_integrated); pcmk__update_peer_expected(__func__, join_node, CRMD_JOINSTATE_MEMBER); } count = crmd_join_phase_count(controld_join_integrated); crm_debug("%d node%s currently integrated in join-%d", count, pcmk__plural_s(count), join_id); if (check_join_state(cur_state, __func__) == FALSE) { // Don't waste time by invoking the scheduler yet count = crmd_join_phase_count(controld_join_welcomed); crm_debug("Waiting on join-%d requests from %d outstanding node%s", join_id, count, pcmk__plural_s(count)); } } /* A_DC_JOIN_FINALIZE */ void do_dc_join_finalize(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { char *sync_from = NULL; int rc = pcmk_ok; int count_welcomed = crmd_join_phase_count(controld_join_welcomed); int count_finalizable = crmd_join_phase_count(controld_join_integrated) + crmd_join_phase_count(controld_join_nack); /* This we can do straight away and avoid clients timing us out * while we compute the latest CIB */ if (count_welcomed != 0) { crm_debug("Waiting on join-%d requests from %d outstanding node%s " "before finalizing join", current_join_id, count_welcomed, pcmk__plural_s(count_welcomed)); crmd_join_phase_log(LOG_DEBUG); /* crmd_fsa_stall(FALSE); Needed? */ return; } else if (count_finalizable == 0) { crm_debug("Finalization not needed for join-%d at the current time", current_join_id); crmd_join_phase_log(LOG_DEBUG); check_join_state(controld_globals.fsa_state, __func__); return; } controld_clear_fsa_input_flags(R_HAVE_CIB); if ((max_generation_from == NULL) || controld_is_local_node(max_generation_from)) { controld_set_fsa_input_flags(R_HAVE_CIB); } if (!controld_globals.transition_graph->complete) { crm_warn("Delaying join-%d finalization while transition in progress", current_join_id); crmd_join_phase_log(LOG_DEBUG); crmd_fsa_stall(FALSE); return; } if (pcmk_is_set(controld_globals.fsa_input_register, R_HAVE_CIB)) { // Send our CIB out to everyone sync_from = pcmk__str_copy(controld_globals.cluster->priv->node_name); crm_debug("Finalizing join-%d for %d node%s (sync'ing from local CIB)", current_join_id, count_finalizable, pcmk__plural_s(count_finalizable)); crm_log_xml_debug(max_generation_xml, "Requested CIB version"); } else { // Ask for the agreed best CIB sync_from = pcmk__str_copy(max_generation_from); crm_notice("Finalizing join-%d for %d node%s (sync'ing CIB from %s)", current_join_id, count_finalizable, pcmk__plural_s(count_finalizable), sync_from); crm_log_xml_notice(max_generation_xml, "Requested CIB version"); } crmd_join_phase_log(LOG_DEBUG); rc = controld_globals.cib_conn->cmds->sync_from(controld_globals.cib_conn, sync_from, NULL, cib_none); fsa_register_cib_callback(rc, sync_from, finalize_sync_callback); } void free_max_generation(void) { free(max_generation_from); max_generation_from = NULL; pcmk__xml_free(max_generation_xml); max_generation_xml = NULL; } void finalize_sync_callback(xmlNode * msg, int call_id, int rc, xmlNode * output, void *user_data) { CRM_LOG_ASSERT(-EPERM != rc); if (rc != pcmk_ok) { const char *sync_from = (const char *) user_data; do_crm_log(((rc == -pcmk_err_old_data)? LOG_WARNING : LOG_ERR), "Could not sync CIB from %s in join-%d: %s", sync_from, current_join_id, pcmk_strerror(rc)); if (rc != -pcmk_err_old_data) { record_failed_sync_node(sync_from, current_join_id); } /* restart the whole join process */ register_fsa_error_adv(C_FSA_INTERNAL, I_ELECTION_DC, NULL, NULL, __func__); } else if (!AM_I_DC) { crm_debug("Sync'ed CIB for join-%d but no longer DC", current_join_id); } else if (controld_globals.fsa_state != S_FINALIZE_JOIN) { crm_debug("Sync'ed CIB for join-%d but no longer in S_FINALIZE_JOIN " "(%s)", current_join_id, fsa_state2string(controld_globals.fsa_state)); } else { controld_set_fsa_input_flags(R_HAVE_CIB); /* make sure dc_uuid is re-set to us */ if (!check_join_state(controld_globals.fsa_state, __func__)) { int count_finalizable = 0; count_finalizable = crmd_join_phase_count(controld_join_integrated) + crmd_join_phase_count(controld_join_nack); crm_debug("Notifying %d node%s of join-%d results", count_finalizable, pcmk__plural_s(count_finalizable), current_join_id); g_hash_table_foreach(pcmk__peer_cache, finalize_join_for, NULL); } } } static void join_node_state_commit_callback(xmlNode *msg, int call_id, int rc, xmlNode *output, void *user_data) { const char *node = user_data; if (rc != pcmk_ok) { fsa_data_t *msg_data = NULL; // for register_fsa_error() macro crm_crit("join-%d node history update (via CIB call %d) for node %s " "failed: %s", current_join_id, call_id, node, pcmk_strerror(rc)); crm_log_xml_debug(msg, "failed"); register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL); } crm_debug("join-%d node history update (via CIB call %d) for node %s " "complete", current_join_id, call_id, node); check_join_state(controld_globals.fsa_state, __func__); } /* A_DC_JOIN_PROCESS_ACK */ void do_dc_join_ack(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { int join_id = -1; ha_msg_input_t *join_ack = fsa_typed_data(fsa_dt_ha_msg); const char *op = crm_element_value(join_ack->msg, PCMK__XA_CRM_TASK); char *join_from = crm_element_value_copy(join_ack->msg, PCMK__XA_SRC); pcmk__node_status_t *peer = NULL; enum controld_join_phase phase = controld_join_none; enum controld_section_e section = controld_section_lrm; char *xpath = NULL; xmlNode *state = join_ack->xml; xmlNode *execd_state = NULL; cib_t *cib = controld_globals.cib_conn; int rc = pcmk_ok; // Sanity checks if (join_from == NULL) { crm_warn("Ignoring message received without node identification"); goto done; } if (op == NULL) { crm_warn("Ignoring message received from %s without task", join_from); goto done; } if (strcmp(op, CRM_OP_JOIN_CONFIRM)) { crm_debug("Ignoring '%s' message from %s while waiting for '%s'", op, join_from, CRM_OP_JOIN_CONFIRM); goto done; } if (crm_element_value_int(join_ack->msg, PCMK__XA_JOIN_ID, &join_id) != 0) { crm_warn("Ignoring join confirmation from %s without valid join ID", join_from); goto done; } peer = pcmk__get_node(0, join_from, NULL, pcmk__node_search_cluster_member); phase = controld_get_join_phase(peer); if (phase != controld_join_finalized) { crm_info("Ignoring out-of-sequence join-%d confirmation from %s " "(currently %s not %s)", join_id, join_from, join_phase_text(phase), join_phase_text(controld_join_finalized)); goto done; } if (join_id != current_join_id) { crm_err("Rejecting join-%d confirmation from %s " "because currently on join-%d", join_id, join_from, current_join_id); crm_update_peer_join(__func__, peer, controld_join_nack); goto done; } crm_update_peer_join(__func__, peer, controld_join_confirmed); /* Update CIB with node's current executor state. A new transition will be * triggered later, when the CIB manager notifies us of the change. * * The delete and modify requests are part of an atomic transaction. */ rc = cib->cmds->init_transaction(cib); if (rc != pcmk_ok) { goto done; } // Delete relevant parts of node's current executor state from CIB if (pcmk_is_set(controld_globals.flags, controld_shutdown_lock_enabled)) { section = controld_section_lrm_unlocked; } controld_node_state_deletion_strings(join_from, section, &xpath, NULL); rc = cib->cmds->remove(cib, xpath, NULL, cib_xpath|cib_multiple|cib_transaction); if (rc != pcmk_ok) { goto done; } // Update CIB with node's latest known executor state if (controld_is_local_node(join_from)) { // Use the latest possible state if processing our own join ack execd_state = controld_query_executor_state(); if (execd_state != NULL) { crm_debug("Updating local node history for join-%d from query " "result", current_join_id); state = execd_state; } else { crm_warn("Updating local node history from join-%d confirmation " "because query failed", current_join_id); } } else { crm_debug("Updating node history for %s from join-%d confirmation", join_from, current_join_id); } rc = cib->cmds->modify(cib, PCMK_XE_STATUS, state, cib_can_create|cib_transaction); pcmk__xml_free(execd_state); if (rc != pcmk_ok) { goto done; } // Commit the transaction rc = cib->cmds->end_transaction(cib, true, cib_none); fsa_register_cib_callback(rc, join_from, join_node_state_commit_callback); if (rc > 0) { // join_from will be freed after callback join_from = NULL; rc = pcmk_ok; } done: if (rc != pcmk_ok) { crm_crit("join-%d node history update for node %s failed: %s", current_join_id, join_from, pcmk_strerror(rc)); register_fsa_error(C_FSA_INTERNAL, I_ERROR, NULL); } free(join_from); free(xpath); } void finalize_join_for(gpointer key, gpointer value, gpointer user_data) { xmlNode *acknak = NULL; xmlNode *tmp1 = NULL; pcmk__node_status_t *join_node = value; const char *join_to = join_node->name; enum controld_join_phase phase = controld_get_join_phase(join_node); bool integrated = false; switch (phase) { case controld_join_integrated: integrated = true; break; case controld_join_nack: break; default: crm_trace("Not updating non-integrated and non-nacked node %s (%s) " "for join-%d", join_to, join_phase_text(phase), current_join_id); return; } /* Update the element with the node's name and UUID, in case they * weren't known before */ crm_trace("Updating node name and UUID in CIB for %s", join_to); tmp1 = pcmk__xe_create(NULL, PCMK_XE_NODE); crm_xml_add(tmp1, PCMK_XA_ID, pcmk__cluster_node_uuid(join_node)); crm_xml_add(tmp1, PCMK_XA_UNAME, join_to); fsa_cib_anon_update(PCMK_XE_NODES, tmp1); pcmk__xml_free(tmp1); join_node = pcmk__get_node(0, join_to, NULL, pcmk__node_search_cluster_member); if (!pcmk__cluster_is_node_active(join_node)) { /* * NACK'ing nodes that the membership layer doesn't know about yet * simply creates more churn * * Better to leave them waiting and let the join restart when * the new membership event comes in * * All other NACKs (due to versions etc) should still be processed */ pcmk__update_peer_expected(__func__, join_node, CRMD_JOINSTATE_PENDING); return; } // Acknowledge or nack node's join request crm_debug("%sing join-%d request from %s", integrated? "Acknowledg" : "Nack", current_join_id, join_to); acknak = create_dc_message(CRM_OP_JOIN_ACKNAK, join_to); pcmk__xe_set_bool_attr(acknak, CRM_OP_JOIN_ACKNAK, integrated); if (integrated) { // No change needed for a nacked node crm_update_peer_join(__func__, join_node, controld_join_finalized); pcmk__update_peer_expected(__func__, join_node, CRMD_JOINSTATE_MEMBER); /* Iterate through the remote peer cache and add information on which * node hosts each to the ACK message. This keeps new controllers in * sync with what has already happened. */ if (pcmk__cluster_num_remote_nodes() > 0) { GHashTableIter iter; pcmk__node_status_t *node = NULL; xmlNode *remotes = pcmk__xe_create(acknak, PCMK_XE_NODES); g_hash_table_iter_init(&iter, pcmk__remote_peer_cache); while (g_hash_table_iter_next(&iter, NULL, (gpointer *) &node)) { xmlNode *remote = NULL; if (!node->conn_host) { continue; } remote = pcmk__xe_create(remotes, PCMK_XE_NODE); pcmk__xe_set_props(remote, PCMK_XA_ID, node->name, PCMK__XA_NODE_STATE, node->state, PCMK__XA_CONNECTION_HOST, node->conn_host, NULL); } } } pcmk__cluster_send_message(join_node, pcmk_ipc_controld, acknak); pcmk__xml_free(acknak); return; } gboolean check_join_state(enum crmd_fsa_state cur_state, const char *source) { static unsigned long long highest_seq = 0; if (controld_globals.membership_id != controld_globals.peer_seq) { crm_debug("join-%d: Membership changed from %llu to %llu " QB_XS " highest=%llu state=%s for=%s", current_join_id, controld_globals.membership_id, controld_globals.peer_seq, highest_seq, fsa_state2string(cur_state), source); if (highest_seq < controld_globals.peer_seq) { /* Don't spam the FSA with duplicates */ highest_seq = controld_globals.peer_seq; register_fsa_input_before(C_FSA_INTERNAL, I_NODE_JOIN, NULL); } } else if (cur_state == S_INTEGRATION) { if (crmd_join_phase_count(controld_join_welcomed) == 0) { int count = crmd_join_phase_count(controld_join_integrated); crm_debug("join-%d: Integration of %d peer%s complete " QB_XS " state=%s for=%s", current_join_id, count, pcmk__plural_s(count), fsa_state2string(cur_state), source); register_fsa_input_before(C_FSA_INTERNAL, I_INTEGRATED, NULL); return TRUE; } } else if (cur_state == S_FINALIZE_JOIN) { if (!pcmk_is_set(controld_globals.fsa_input_register, R_HAVE_CIB)) { crm_debug("join-%d: Delaying finalization until we have CIB " QB_XS " state=%s for=%s", current_join_id, fsa_state2string(cur_state), source); return TRUE; } else if (crmd_join_phase_count(controld_join_welcomed) != 0) { int count = crmd_join_phase_count(controld_join_welcomed); crm_debug("join-%d: Still waiting on %d welcomed node%s " QB_XS " state=%s for=%s", current_join_id, count, pcmk__plural_s(count), fsa_state2string(cur_state), source); crmd_join_phase_log(LOG_DEBUG); } else if (crmd_join_phase_count(controld_join_integrated) != 0) { int count = crmd_join_phase_count(controld_join_integrated); crm_debug("join-%d: Still waiting on %d integrated node%s " QB_XS " state=%s for=%s", current_join_id, count, pcmk__plural_s(count), fsa_state2string(cur_state), source); crmd_join_phase_log(LOG_DEBUG); } else if (crmd_join_phase_count(controld_join_finalized) != 0) { int count = crmd_join_phase_count(controld_join_finalized); crm_debug("join-%d: Still waiting on %d finalized node%s " QB_XS " state=%s for=%s", current_join_id, count, pcmk__plural_s(count), fsa_state2string(cur_state), source); crmd_join_phase_log(LOG_DEBUG); } else { crm_debug("join-%d: Complete " QB_XS " state=%s for=%s", current_join_id, fsa_state2string(cur_state), source); register_fsa_input_later(C_FSA_INTERNAL, I_FINALIZED, NULL); return TRUE; } } return FALSE; } void do_dc_join_final(long long action, enum crmd_fsa_cause cause, enum crmd_fsa_state cur_state, enum crmd_fsa_input current_input, fsa_data_t * msg_data) { crm_debug("Ensuring DC, quorum and node attributes are up-to-date"); crm_update_quorum(pcmk__cluster_has_quorum(), TRUE); } int crmd_join_phase_count(enum controld_join_phase phase) { int count = 0; pcmk__node_status_t *peer; GHashTableIter iter; g_hash_table_iter_init(&iter, pcmk__peer_cache); while (g_hash_table_iter_next(&iter, NULL, (gpointer *) &peer)) { if (controld_get_join_phase(peer) == phase) { count++; } } return count; } void crmd_join_phase_log(int level) { pcmk__node_status_t *peer; GHashTableIter iter; g_hash_table_iter_init(&iter, pcmk__peer_cache); while (g_hash_table_iter_next(&iter, NULL, (gpointer *) &peer)) { do_crm_log(level, "join-%d: %s=%s", current_join_id, peer->name, join_phase_text(controld_get_join_phase(peer))); } } diff --git a/daemons/controld/controld_throttle.c b/daemons/controld/controld_throttle.c index e01e1714ad..27d75e4d13 100644 --- a/daemons/controld/controld_throttle.c +++ b/daemons/controld/controld_throttle.c @@ -1,575 +1,586 @@ /* * Copyright 2013-2024 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 #include #include #include #include #include #include #include #include /* These values don't need to be bits, but these particular values must be kept * for backward compatibility during rolling upgrades. */ enum throttle_state_e { throttle_none = 0x0000, throttle_low = 0x0001, throttle_med = 0x0010, throttle_high = 0x0100, throttle_extreme = 0x1000, }; struct throttle_record_s { int max; enum throttle_state_e mode; char *node; }; static int throttle_job_max = 0; static float throttle_load_target = 0.0; #define THROTTLE_FACTOR_LOW 1.2 #define THROTTLE_FACTOR_MEDIUM 1.6 #define THROTTLE_FACTOR_HIGH 2.0 static GHashTable *throttle_records = NULL; static mainloop_timer_t *throttle_timer = NULL; static const char * load2str(enum throttle_state_e mode) { switch (mode) { case throttle_extreme: return "extreme"; case throttle_high: return "high"; case throttle_med: return "medium"; case throttle_low: return "low"; case throttle_none: return "negligible"; default: return "undetermined"; } } #if HAVE_LINUX_PROCFS /*! * \internal * \brief Return name of /proc file containing the CIB daemon's load statistics * * \return Newly allocated memory with file name on success, NULL otherwise * * \note It is the caller's responsibility to free the return value. * This will return NULL if the daemon is being run via valgrind. * This should be called only on Linux systems. */ static char * find_cib_loadfile(void) { pid_t pid = pcmk__procfs_pid_of(PCMK__SERVER_BASED); return pid? crm_strdup_printf("/proc/%lld/stat", (long long) pid) : NULL; } static bool throttle_cib_load(float *load) { /* /proc/[pid]/stat Status information about the process. This is used by ps(1). It is defined in /usr/src/linux/fs/proc/array.c. The fields, in order, with their proper scanf(3) format specifiers, are: pid %d (1) The process ID. comm %s (2) The filename of the executable, in parentheses. This is visible whether or not the executable is swapped out. state %c (3) One character from the string "RSDZTW" where R is running, S is sleeping in an interruptible wait, D is waiting in uninterruptible disk sleep, Z is zombie, T is traced or stopped (on a signal), and W is paging. ppid %d (4) The PID of the parent. pgrp %d (5) The process group ID of the process. session %d (6) The session ID of the process. tty_nr %d (7) The controlling terminal of the process. (The minor device number is contained in the combination of bits 31 to 20 and 7 to 0; the major device number is in bits 15 to 8.) tpgid %d (8) The ID of the foreground process group of the controlling terminal of the process. flags %u (%lu before Linux 2.6.22) (9) The kernel flags word of the process. For bit meanings, see the PF_* defines in the Linux kernel source file include/linux/sched.h. Details depend on the kernel version. minflt %lu (10) The number of minor faults the process has made which have not required loading a memory page from disk. cminflt %lu (11) The number of minor faults that the process's waited-for children have made. majflt %lu (12) The number of major faults the process has made which have required loading a memory page from disk. cmajflt %lu (13) The number of major faults that the process's waited-for children have made. utime %lu (14) Amount of time that this process has been scheduled in user mode, measured in clock ticks (divide by sysconf(_SC_CLK_TCK)). This includes guest time, guest_time (time spent running a virtual CPU, see below), so that applications that are not aware of the guest time field do not lose that time from their calculations. stime %lu (15) Amount of time that this process has been scheduled in kernel mode, measured in clock ticks (divide by sysconf(_SC_CLK_TCK)). */ static char *loadfile = NULL; static time_t last_call = 0; static long ticks_per_s = 0; static unsigned long last_utime, last_stime; char buffer[64*1024]; FILE *stream = NULL; time_t now = time(NULL); if(load == NULL) { return FALSE; } else { *load = 0.0; } if(loadfile == NULL) { last_call = 0; last_utime = 0; last_stime = 0; loadfile = find_cib_loadfile(); if (loadfile == NULL) { crm_warn("Couldn't find CIB load file"); return FALSE; } ticks_per_s = sysconf(_SC_CLK_TCK); crm_trace("Found %s", loadfile); } stream = fopen(loadfile, "r"); if(stream == NULL) { int rc = errno; crm_warn("Couldn't read %s: %s (%d)", loadfile, pcmk_rc_str(rc), rc); free(loadfile); loadfile = NULL; return FALSE; } if(fgets(buffer, sizeof(buffer), stream)) { char *comm = pcmk__assert_alloc(1, 256); char state = 0; int rc = 0, pid = 0, ppid = 0, pgrp = 0, session = 0, tty_nr = 0, tpgid = 0; unsigned long flags = 0, minflt = 0, cminflt = 0, majflt = 0, cmajflt = 0, utime = 0, stime = 0; rc = sscanf(buffer, "%d %[^ ] %c %d %d %d %d %d %lu %lu %lu %lu %lu %lu %lu", &pid, comm, &state, &ppid, &pgrp, &session, &tty_nr, &tpgid, &flags, &minflt, &cminflt, &majflt, &cmajflt, &utime, &stime); free(comm); if(rc != 15) { crm_err("Only %d of 15 fields found in %s", rc, loadfile); fclose(stream); return FALSE; } else if(last_call > 0 && last_call < now && last_utime <= utime && last_stime <= stime) { time_t elapsed = now - last_call; unsigned long delta_utime = utime - last_utime; unsigned long delta_stime = stime - last_stime; *load = (delta_utime + delta_stime); /* Cast to a float before division */ *load /= ticks_per_s; *load /= elapsed; crm_debug("cib load: %f (%lu ticks in %lds)", *load, delta_utime + delta_stime, (long)elapsed); } else { crm_debug("Init %lu + %lu ticks at %ld (%lu tps)", utime, stime, (long)now, ticks_per_s); } last_call = now; last_utime = utime; last_stime = stime; fclose(stream); return TRUE; } fclose(stream); return FALSE; } static bool throttle_load_avg(float *load) { char buffer[256]; FILE *stream = NULL; const char *loadfile = "/proc/loadavg"; if(load == NULL) { return FALSE; } stream = fopen(loadfile, "r"); if(stream == NULL) { int rc = errno; crm_warn("Couldn't read %s: %s (%d)", loadfile, pcmk_rc_str(rc), rc); return FALSE; } if(fgets(buffer, sizeof(buffer), stream)) { char *nl = strstr(buffer, "\n"); /* Grab the 1-minute average, ignore the rest */ *load = strtof(buffer, NULL); if(nl) { nl[0] = 0; } fclose(stream); return TRUE; } fclose(stream); return FALSE; } /*! * \internal * \brief Check a load value against throttling thresholds * * \param[in] load Load value to check * \param[in] desc Description of metric (for logging) * \param[in] thresholds Low/medium/high/extreme thresholds * * \return Throttle mode corresponding to load value */ static enum throttle_state_e throttle_check_thresholds(float load, const char *desc, const float thresholds[4]) { if (load > thresholds[3]) { crm_notice("Extreme %s detected: %f", desc, load); return throttle_extreme; } else if (load > thresholds[2]) { crm_notice("High %s detected: %f", desc, load); return throttle_high; } else if (load > thresholds[1]) { crm_info("Moderate %s detected: %f", desc, load); return throttle_med; } else if (load > thresholds[0]) { crm_debug("Noticeable %s detected: %f", desc, load); return throttle_low; } crm_trace("Negligible %s detected: %f", desc, load); return throttle_none; } static enum throttle_state_e throttle_handle_load(float load, const char *desc, int cores) { float normalize; float thresholds[4]; if (cores == 1) { /* On a single core machine, a load of 1.0 is already too high */ normalize = 0.6; } else { /* Normalize the load to be per-core */ normalize = cores; } thresholds[0] = throttle_load_target * normalize * THROTTLE_FACTOR_LOW; thresholds[1] = throttle_load_target * normalize * THROTTLE_FACTOR_MEDIUM; thresholds[2] = throttle_load_target * normalize * THROTTLE_FACTOR_HIGH; thresholds[3] = load + 1.0; /* never extreme */ return throttle_check_thresholds(load, desc, thresholds); } #endif // HAVE_LINUX_PROCFS static enum throttle_state_e throttle_mode(void) { enum throttle_state_e mode = throttle_none; #if HAVE_LINUX_PROCFS unsigned int cores; float load; float thresholds[4]; cores = pcmk__procfs_num_cores(); if(throttle_cib_load(&load)) { float cib_max_cpu = 0.95; /* The CIB is a single-threaded task and thus cannot consume * more than 100% of a CPU (and 1/cores of the overall system * load). * * On a many-cored system, the CIB might therefore be maxed out * (causing operations to fail or appear to fail) even though * the overall system load is still reasonable. * * Therefore, the 'normal' thresholds can not apply here, and we * need a special case. */ if(cores == 1) { cib_max_cpu = 0.4; } if(throttle_load_target > 0.0 && throttle_load_target < cib_max_cpu) { cib_max_cpu = throttle_load_target; } thresholds[0] = cib_max_cpu * 0.8; thresholds[1] = cib_max_cpu * 0.9; thresholds[2] = cib_max_cpu; /* Can only happen on machines with a low number of cores */ thresholds[3] = cib_max_cpu * 1.5; mode = throttle_check_thresholds(load, "CIB load", thresholds); } if(throttle_load_target <= 0) { /* If we ever make this a valid value, the cluster will at least behave as expected */ return mode; } if(throttle_load_avg(&load)) { enum throttle_state_e cpu_load; cpu_load = throttle_handle_load(load, "CPU load", cores); if (cpu_load > mode) { mode = cpu_load; } crm_debug("Current load is %f across %u core(s)", load, cores); } #endif // HAVE_LINUX_PROCFS return mode; } static void throttle_send_command(enum throttle_state_e mode) { xmlNode *xml = NULL; static enum throttle_state_e last = -1; if(mode != last) { crm_info("New throttle mode: %s load (was %s)", load2str(mode), load2str(last)); last = mode; xml = pcmk__new_request(pcmk_ipc_controld, CRM_SYSTEM_CRMD, NULL, CRM_SYSTEM_CRMD, CRM_OP_THROTTLE, NULL); crm_xml_add_int(xml, PCMK__XA_CRM_LIMIT_MODE, mode); crm_xml_add_int(xml, PCMK__XA_CRM_LIMIT_MAX, throttle_job_max); pcmk__cluster_send_message(NULL, pcmk_ipc_controld, xml); pcmk__xml_free(xml); } } static gboolean throttle_timer_cb(gpointer data) { throttle_send_command(throttle_mode()); return TRUE; } static void throttle_record_free(gpointer p) { struct throttle_record_s *r = p; free(r->node); free(r); } static void throttle_set_load_target(float target) { throttle_load_target = target; } /*! * \internal * \brief Update the maximum number of simultaneous jobs * * \param[in] preference Cluster-wide \c PCMK_OPT_NODE_ACTION_LIMIT from the * CIB */ static void throttle_update_job_max(const char *preference) { long long max = 0LL; + + // Per-node override const char *env_limit = pcmk__env_option(PCMK__ENV_NODE_ACTION_LIMIT); if (env_limit != NULL) { - preference = env_limit; // Per-node override + int rc = pcmk__scan_ll(env_limit, &max, 0LL); + + if (rc != pcmk_rc_ok) { + crm_warn("Ignoring local option PCMK_" PCMK__ENV_NODE_ACTION_LIMIT + " because '%s' is not a valid value: %s", + env_limit, pcmk_rc_str(rc)); + env_limit = NULL; + } } - if (preference != NULL) { - pcmk__scan_ll(preference, &max, 0LL); + if (env_limit == NULL) { + // Option validator should prevent invalid values + CRM_LOG_ASSERT(pcmk__scan_ll(preference, &max, 0LL) == pcmk_rc_ok); } + if (max > 0) { throttle_job_max = (max >= INT_MAX)? INT_MAX : (int) max; } else { // Default is based on the number of cores detected throttle_job_max = 2 * pcmk__procfs_num_cores(); } } void throttle_init(void) { if(throttle_records == NULL) { throttle_records = pcmk__strkey_table(NULL, throttle_record_free); throttle_timer = mainloop_timer_add("throttle", 30 * 1000, TRUE, throttle_timer_cb, NULL); } throttle_update_job_max(NULL); mainloop_timer_start(throttle_timer); } /*! * \internal * \brief Configure throttle options based on the CIB * * \param[in,out] options Name/value pairs for configured options */ void controld_configure_throttle(GHashTable *options) { const char *value = g_hash_table_lookup(options, PCMK_OPT_LOAD_THRESHOLD); if (value != NULL) { throttle_set_load_target(strtof(value, NULL) / 100.0); } value = g_hash_table_lookup(options, PCMK_OPT_NODE_ACTION_LIMIT); throttle_update_job_max(value); } void throttle_fini(void) { if (throttle_timer != NULL) { mainloop_timer_del(throttle_timer); throttle_timer = NULL; } if (throttle_records != NULL) { g_hash_table_destroy(throttle_records); throttle_records = NULL; } } int throttle_get_total_job_limit(int l) { /* Cluster-wide limit */ GHashTableIter iter; int limit = l; int peers = pcmk__cluster_num_active_nodes(); struct throttle_record_s *r = NULL; g_hash_table_iter_init(&iter, throttle_records); while (g_hash_table_iter_next(&iter, NULL, (gpointer *) &r)) { switch(r->mode) { case throttle_extreme: if(limit == 0 || limit > peers/4) { limit = QB_MAX(1, peers/4); } break; case throttle_high: if(limit == 0 || limit > peers/2) { limit = QB_MAX(1, peers/2); } break; default: break; } } if(limit == l) { } else if(l == 0) { crm_trace("Using " PCMK_OPT_BATCH_LIMIT "=%d", limit); } else { crm_trace("Using " PCMK_OPT_BATCH_LIMIT "=%d instead of %d", limit, l); } return limit; } int throttle_get_job_limit(const char *node) { int jobs = 1; struct throttle_record_s *r = NULL; r = g_hash_table_lookup(throttle_records, node); if(r == NULL) { r = pcmk__assert_alloc(1, sizeof(struct throttle_record_s)); r->node = pcmk__str_copy(node); r->mode = throttle_low; r->max = throttle_job_max; crm_trace("Defaulting to local values for unknown node %s", node); g_hash_table_insert(throttle_records, r->node, r); } switch(r->mode) { case throttle_extreme: case throttle_high: jobs = 1; /* At least one job must always be allowed */ break; case throttle_med: jobs = QB_MAX(1, r->max / 4); break; case throttle_low: jobs = QB_MAX(1, r->max / 2); break; case throttle_none: jobs = QB_MAX(1, r->max); break; default: crm_err("Unknown throttle mode %.4x on %s", r->mode, node); break; } return jobs; } void throttle_update(xmlNode *xml) { int max = 0; int mode = 0; struct throttle_record_s *r = NULL; const char *from = crm_element_value(xml, PCMK__XA_SRC); crm_element_value_int(xml, PCMK__XA_CRM_LIMIT_MODE, &mode); crm_element_value_int(xml, PCMK__XA_CRM_LIMIT_MAX, &max); r = g_hash_table_lookup(throttle_records, from); if(r == NULL) { r = pcmk__assert_alloc(1, sizeof(struct throttle_record_s)); r->node = pcmk__str_copy(from); g_hash_table_insert(throttle_records, r->node, r); } r->max = max; r->mode = (enum throttle_state_e) mode; crm_debug("Node %s has %s load and supports at most %d jobs; new job limit %d", from, load2str((enum throttle_state_e) mode), max, throttle_get_job_limit(from)); } diff --git a/lib/common/ipc_pacemakerd.c b/lib/common/ipc_pacemakerd.c index aba4299ffe..8a2376fe94 100644 --- a/lib/common/ipc_pacemakerd.c +++ b/lib/common/ipc_pacemakerd.c @@ -1,336 +1,342 @@ /* * Copyright 2020-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include #include #include #include #include #include #include #include "crmcommon_private.h" typedef struct pacemakerd_api_private_s { enum pcmk_pacemakerd_state state; char *client_uuid; } pacemakerd_api_private_t; static const char *pacemakerd_state_str[] = { PCMK__VALUE_INIT, PCMK__VALUE_STARTING_DAEMONS, PCMK__VALUE_WAIT_FOR_PING, PCMK__VALUE_RUNNING, PCMK__VALUE_SHUTTING_DOWN, PCMK__VALUE_SHUTDOWN_COMPLETE, PCMK_VALUE_REMOTE, }; enum pcmk_pacemakerd_state pcmk_pacemakerd_api_daemon_state_text2enum(const char *state) { int i; if (state == NULL) { return pcmk_pacemakerd_state_invalid; } for (i=pcmk_pacemakerd_state_init; i <= pcmk_pacemakerd_state_max; i++) { if (pcmk__str_eq(state, pacemakerd_state_str[i], pcmk__str_none)) { return i; } } return pcmk_pacemakerd_state_invalid; } const char * pcmk_pacemakerd_api_daemon_state_enum2text( enum pcmk_pacemakerd_state state) { if ((state >= pcmk_pacemakerd_state_init) && (state <= pcmk_pacemakerd_state_max)) { return pacemakerd_state_str[state]; } return "invalid"; } /*! * \internal * \brief Return a friendly string representation of a \p pacemakerd state * * \param[in] state \p pacemakerd state * * \return A user-friendly string representation of \p state, or * "Invalid pacemakerd state" */ const char * pcmk__pcmkd_state_enum2friendly(enum pcmk_pacemakerd_state state) { switch (state) { case pcmk_pacemakerd_state_init: return "Initializing pacemaker"; case pcmk_pacemakerd_state_starting_daemons: return "Pacemaker daemons are starting"; case pcmk_pacemakerd_state_wait_for_ping: return "Waiting for startup trigger from SBD"; case pcmk_pacemakerd_state_running: return "Pacemaker is running"; case pcmk_pacemakerd_state_shutting_down: return "Pacemaker daemons are shutting down"; case pcmk_pacemakerd_state_shutdown_complete: /* Assuming pacemakerd won't process messages while in * shutdown_complete state unless reporting to SBD */ return "Pacemaker daemons are shut down (reporting to SBD)"; case pcmk_pacemakerd_state_remote: return PCMK__SERVER_REMOTED " is running " "(on a Pacemaker Remote node)"; default: return "Invalid pacemakerd state"; } } /*! * \internal * \brief Get a string representation of a \p pacemakerd API reply type * * \param[in] reply \p pacemakerd API reply type * * \return String representation of a \p pacemakerd API reply type */ const char * pcmk__pcmkd_api_reply2str(enum pcmk_pacemakerd_api_reply reply) { switch (reply) { case pcmk_pacemakerd_reply_ping: return "ping"; case pcmk_pacemakerd_reply_shutdown: return "shutdown"; default: return "unknown"; } } // \return Standard Pacemaker return code static int new_data(pcmk_ipc_api_t *api) { struct pacemakerd_api_private_s *private = NULL; api->api_data = calloc(1, sizeof(struct pacemakerd_api_private_s)); if (api->api_data == NULL) { return errno; } private = api->api_data; private->state = pcmk_pacemakerd_state_invalid; /* other as with cib, controld, ... we are addressing pacemakerd just from the local node -> pid is unique and thus sufficient as an ID */ private->client_uuid = pcmk__getpid_s(); return pcmk_rc_ok; } static void free_data(void *data) { free(((struct pacemakerd_api_private_s *) data)->client_uuid); free(data); } // \return Standard Pacemaker return code static int post_connect(pcmk_ipc_api_t *api) { struct pacemakerd_api_private_s *private = NULL; if (api->api_data == NULL) { return EINVAL; } private = api->api_data; private->state = pcmk_pacemakerd_state_invalid; return pcmk_rc_ok; } static void post_disconnect(pcmk_ipc_api_t *api) { struct pacemakerd_api_private_s *private = NULL; if (api->api_data == NULL) { return; } private = api->api_data; private->state = pcmk_pacemakerd_state_invalid; return; } static bool reply_expected(pcmk_ipc_api_t *api, const xmlNode *request) { const char *command = crm_element_value(request, PCMK__XA_CRM_TASK); if (command == NULL) { return false; } // We only need to handle commands that functions in this file can send return pcmk__str_any_of(command, CRM_OP_PING, CRM_OP_QUIT, NULL); } static bool dispatch(pcmk_ipc_api_t *api, xmlNode *reply) { crm_exit_t status = CRM_EX_OK; xmlNode *wrapper = NULL; xmlNode *msg_data = NULL; pcmk_pacemakerd_api_reply_t reply_data = { pcmk_pacemakerd_reply_unknown }; const char *value = NULL; long long value_ll = 0; if (pcmk__xe_is(reply, PCMK__XE_ACK)) { long long int ack_status = 0; - pcmk__scan_ll(crm_element_value(reply, PCMK_XA_STATUS), &ack_status, - CRM_EX_OK); + const char *status = crm_element_value(reply, PCMK_XA_STATUS); + int rc = pcmk__scan_ll(status, &ack_status, CRM_EX_OK); + + if (rc != pcmk_rc_ok) { + crm_warn("Ack reply from %s has invalid " PCMK_XA_STATUS + " '%s' (bug?)", + pcmk_ipc_name(api, true), pcmk__s(status, "")); + } return ack_status == CRM_EX_INDETERMINATE; } value = crm_element_value(reply, PCMK__XA_T); if (pcmk__parse_server(value) != pcmk_ipc_pacemakerd) { /* @COMPAT pacemakerd <3.0.0 sets PCMK__VALUE_CRMD as the message type, * so we can't enforce this check until we no longer support * Pacemaker Remote nodes connecting to cluster nodes older than that. */ crm_trace("Message from %s has unexpected message type '%s' " "(bug if not from pacemakerd <3.0.0)", pcmk_ipc_name(api, true), pcmk__s(value, "")); } value = crm_element_value(reply, PCMK__XA_SUBT); if (!pcmk__str_eq(value, PCMK__VALUE_RESPONSE, pcmk__str_none)) { crm_info("Unrecognizable message from %s: " "message type '%s' not '" PCMK__VALUE_RESPONSE "'", pcmk_ipc_name(api, true), pcmk__s(value, "")); status = CRM_EX_PROTOCOL; goto done; } if (pcmk__str_empty(crm_element_value(reply, PCMK_XA_REFERENCE))) { crm_info("Unrecognizable message from %s: no reference", pcmk_ipc_name(api, true)); status = CRM_EX_PROTOCOL; goto done; } value = crm_element_value(reply, PCMK__XA_CRM_TASK); // Parse useful info from reply wrapper = pcmk__xe_first_child(reply, PCMK__XE_CRM_XML, NULL, NULL); msg_data = pcmk__xe_first_child(wrapper, NULL, NULL, NULL); crm_element_value_ll(msg_data, PCMK_XA_CRM_TIMESTAMP, &value_ll); if (pcmk__str_eq(value, CRM_OP_PING, pcmk__str_none)) { reply_data.reply_type = pcmk_pacemakerd_reply_ping; reply_data.data.ping.state = pcmk_pacemakerd_api_daemon_state_text2enum( crm_element_value(msg_data, PCMK__XA_PACEMAKERD_STATE)); reply_data.data.ping.status = pcmk__str_eq(crm_element_value(msg_data, PCMK_XA_RESULT), "ok", pcmk__str_casei)?pcmk_rc_ok:pcmk_rc_error; reply_data.data.ping.last_good = (value_ll < 0)? 0 : (time_t) value_ll; reply_data.data.ping.sys_from = crm_element_value(msg_data, PCMK__XA_CRM_SUBSYSTEM); } else if (pcmk__str_eq(value, CRM_OP_QUIT, pcmk__str_none)) { const char *op_status = crm_element_value(msg_data, PCMK__XA_OP_STATUS); reply_data.reply_type = pcmk_pacemakerd_reply_shutdown; reply_data.data.shutdown.status = atoi(op_status); } else { crm_info("Unrecognizable message from %s: unknown command '%s'", pcmk_ipc_name(api, true), pcmk__s(value, "")); status = CRM_EX_PROTOCOL; goto done; } done: pcmk__call_ipc_callback(api, pcmk_ipc_event_reply, status, &reply_data); return false; } pcmk__ipc_methods_t * pcmk__pacemakerd_api_methods(void) { pcmk__ipc_methods_t *cmds = calloc(1, sizeof(pcmk__ipc_methods_t)); if (cmds != NULL) { cmds->new_data = new_data; cmds->free_data = free_data; cmds->post_connect = post_connect; cmds->reply_expected = reply_expected; cmds->dispatch = dispatch; cmds->post_disconnect = post_disconnect; } return cmds; } static int do_pacemakerd_api_call(pcmk_ipc_api_t *api, const char *ipc_name, const char *task) { pacemakerd_api_private_t *private; char *sender_system = NULL; xmlNode *cmd; int rc; if (api == NULL) { return EINVAL; } private = api->api_data; CRM_ASSERT(private != NULL); sender_system = crm_strdup_printf("%s_%s", private->client_uuid, pcmk__ipc_sys_name(ipc_name, "client")); cmd = pcmk__new_request(pcmk_ipc_pacemakerd, sender_system, NULL, CRM_SYSTEM_MCP, task, NULL); free(sender_system); if (cmd) { rc = pcmk__send_ipc_request(api, cmd); if (rc != pcmk_rc_ok) { crm_debug("Couldn't send request to %s: %s rc=%d", pcmk_ipc_name(api, true), pcmk_rc_str(rc), rc); } pcmk__xml_free(cmd); } else { rc = ENOMSG; } return rc; } int pcmk_pacemakerd_api_ping(pcmk_ipc_api_t *api, const char *ipc_name) { return do_pacemakerd_api_call(api, ipc_name, CRM_OP_PING); } int pcmk_pacemakerd_api_shutdown(pcmk_ipc_api_t *api, const char *ipc_name) { return do_pacemakerd_api_call(api, ipc_name, CRM_OP_QUIT); } diff --git a/lib/common/nvpair.c b/lib/common/nvpair.c index 1116cdf330..61f719d540 100644 --- a/lib/common/nvpair.c +++ b/lib/common/nvpair.c @@ -1,994 +1,1015 @@ /* * Copyright 2004-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include #include #include #include #include #include #include #include #include #include "crmcommon_private.h" /* * This file isolates handling of various kinds of name/value pairs: * * - pcmk_nvpair_t data type * - XML attributes () * - XML nvpair elements () * - Meta-attributes (for resources and actions) */ // pcmk_nvpair_t handling /*! * \internal * \brief Allocate a new name/value pair * * \param[in] name New name (required) * \param[in] value New value * * \return Newly allocated name/value pair * \note The caller is responsible for freeing the result with * \c pcmk__free_nvpair(). */ static pcmk_nvpair_t * pcmk__new_nvpair(const char *name, const char *value) { pcmk_nvpair_t *nvpair = NULL; CRM_ASSERT(name); nvpair = pcmk__assert_alloc(1, sizeof(pcmk_nvpair_t)); nvpair->name = pcmk__str_copy(name); nvpair->value = pcmk__str_copy(value); return nvpair; } /*! * \internal * \brief Free a name/value pair * * \param[in,out] nvpair Name/value pair to free */ static void pcmk__free_nvpair(gpointer data) { if (data) { pcmk_nvpair_t *nvpair = data; free(nvpair->name); free(nvpair->value); free(nvpair); } } /*! * \brief Prepend a name/value pair to a list * * \param[in,out] nvpairs List to modify * \param[in] name New entry's name * \param[in] value New entry's value * * \return New head of list * \note The caller is responsible for freeing the list with * \c pcmk_free_nvpairs(). */ GSList * pcmk_prepend_nvpair(GSList *nvpairs, const char *name, const char *value) { return g_slist_prepend(nvpairs, pcmk__new_nvpair(name, value)); } /*! * \brief Free a list of name/value pairs * * \param[in,out] list List to free */ void pcmk_free_nvpairs(GSList *nvpairs) { g_slist_free_full(nvpairs, pcmk__free_nvpair); } /*! * \internal * \brief Compare two name/value pairs * * \param[in] a First name/value pair to compare * \param[in] b Second name/value pair to compare * * \return 0 if a == b, 1 if a > b, -1 if a < b */ static gint pcmk__compare_nvpair(gconstpointer a, gconstpointer b) { int rc = 0; const pcmk_nvpair_t *pair_a = a; const pcmk_nvpair_t *pair_b = b; CRM_ASSERT(a != NULL); CRM_ASSERT(pair_a->name != NULL); CRM_ASSERT(b != NULL); CRM_ASSERT(pair_b->name != NULL); rc = strcmp(pair_a->name, pair_b->name); if (rc < 0) { return -1; } else if (rc > 0) { return 1; } return 0; } /*! * \brief Sort a list of name/value pairs * * \param[in,out] list List to sort * * \return New head of list */ GSList * pcmk_sort_nvpairs(GSList *list) { return g_slist_sort(list, pcmk__compare_nvpair); } /*! * \brief Create a list of name/value pairs from an XML node's attributes * * \param[in] XML to parse * * \return New list of name/value pairs * \note It is the caller's responsibility to free the list with * \c pcmk_free_nvpairs(). */ GSList * pcmk_xml_attrs2nvpairs(const xmlNode *xml) { GSList *result = NULL; for (xmlAttrPtr iter = pcmk__xe_first_attr(xml); iter != NULL; iter = iter->next) { result = pcmk_prepend_nvpair(result, (const char *) iter->name, (const char *) pcmk__xml_attr_value(iter)); } return result; } /*! * \internal * \brief Add an XML attribute corresponding to a name/value pair * * Suitable for glib list iterators, this function adds a NAME=VALUE * XML attribute based on a given name/value pair. * * \param[in] data Name/value pair * \param[out] user_data XML node to add attributes to */ static void pcmk__nvpair_add_xml_attr(gpointer data, gpointer user_data) { pcmk_nvpair_t *pair = data; xmlNode *parent = user_data; crm_xml_add(parent, pair->name, pair->value); } /*! * \brief Add XML attributes based on a list of name/value pairs * * \param[in,out] list List of name/value pairs * \param[in,out] xml XML node to add attributes to */ void pcmk_nvpairs2xml_attrs(GSList *list, xmlNode *xml) { g_slist_foreach(list, pcmk__nvpair_add_xml_attr, xml); } // convenience function for name=value strings /*! * \internal * \brief Extract the name and value from an input string formatted as "name=value". * If unable to extract them, they are returned as NULL. * * \param[in] input The input string, likely from the command line * \param[out] name Everything before the first '=' in the input string * \param[out] value Everything after the first '=' in the input string * * \return 2 if both name and value could be extracted, 1 if only one could, and * and error code otherwise */ int pcmk__scan_nvpair(const char *input, char **name, char **value) { #ifdef HAVE_SSCANF_M *name = NULL; *value = NULL; if (sscanf(input, "%m[^=]=%m[^\n]", name, value) <= 0) { return -pcmk_err_bad_nvpair; } #else char *sep = NULL; *name = NULL; *value = NULL; sep = strstr(optarg, "="); if (sep == NULL) { return -pcmk_err_bad_nvpair; } *name = strndup(input, sep-input); if (*name == NULL) { return -ENOMEM; } /* If the last char in optarg is =, the user gave no * value for the option. Leave it as NULL. */ if (*(sep+1) != '\0') { *value = strdup(sep+1); if (*value == NULL) { return -ENOMEM; } } #endif if (*name != NULL && *value != NULL) { return 2; } else if (*name != NULL || *value != NULL) { return 1; } else { return -pcmk_err_bad_nvpair; } } /*! * \internal * \brief Format a name/value pair. * * Units can optionally be provided for the value. Note that unlike most * formatting functions, this one returns the formatted string. It is * assumed that the most common use of this function will be to build up * a string to be output as part of other functions. * * \note The caller is responsible for freeing the return value after use. * * \param[in] name The name of the nvpair. * \param[in] value The value of the nvpair. * \param[in] units Optional units for the value, or NULL. * * \return Newly allocated string with name/value pair */ char * pcmk__format_nvpair(const char *name, const char *value, const char *units) { return crm_strdup_printf("%s=\"%s%s\"", name, value, units ? units : ""); } // XML attribute handling /*! * \brief Create an XML attribute with specified name and value * * \param[in,out] node XML node to modify * \param[in] name Attribute name to set * \param[in] value Attribute value to set * * \return New value on success, \c NULL otherwise * \note This does nothing if node, name, or value are \c NULL or empty. */ const char * crm_xml_add(xmlNode *node, const char *name, const char *value) { bool dirty = FALSE; xmlAttr *attr = NULL; CRM_CHECK(node != NULL, return NULL); CRM_CHECK(name != NULL, return NULL); if (value == NULL) { return NULL; } if (pcmk__tracking_xml_changes(node, FALSE)) { const char *old = crm_element_value(node, name); if (old == NULL || value == NULL || strcmp(old, value) != 0) { dirty = TRUE; } } if (dirty && (pcmk__check_acl(node, name, pcmk__xf_acl_create) == FALSE)) { crm_trace("Cannot add %s=%s to %s", name, value, node->name); return NULL; } attr = xmlSetProp(node, (pcmkXmlStr) name, (pcmkXmlStr) value); if (dirty) { pcmk__mark_xml_attr_dirty(attr); } CRM_CHECK(attr && attr->children && attr->children->content, return NULL); return (char *)attr->children->content; } /*! * \brief Create an XML attribute with specified name and integer value * * This is like \c crm_xml_add() but taking an integer value. * * \param[in,out] node XML node to modify * \param[in] name Attribute name to set * \param[in] value Attribute value to set * * \return New value as string on success, \c NULL otherwise * \note This does nothing if node or name are \c NULL or empty. */ const char * crm_xml_add_int(xmlNode *node, const char *name, int value) { char *number = pcmk__itoa(value); const char *added = crm_xml_add(node, name, number); free(number); return added; } /*! * \brief Create an XML attribute with specified name and unsigned value * * This is like \c crm_xml_add() but taking a guint value. * * \param[in,out] node XML node to modify * \param[in] name Attribute name to set * \param[in] ms Attribute value to set * * \return New value as string on success, \c NULL otherwise * \note This does nothing if node or name are \c NULL or empty. */ const char * crm_xml_add_ms(xmlNode *node, const char *name, guint ms) { char *number = crm_strdup_printf("%u", ms); const char *added = crm_xml_add(node, name, number); free(number); return added; } // Maximum size of null-terminated string representation of 64-bit integer // -9223372036854775808 #define LLSTRSIZE 21 /*! * \brief Create an XML attribute with specified name and long long int value * * This is like \c crm_xml_add() but taking a long long int value. It is a * useful equivalent for defined types like time_t, etc. * * \param[in,out] xml XML node to modify * \param[in] name Attribute name to set * \param[in] value Attribute value to set * * \return New value as string on success, \c NULL otherwise * \note This does nothing if xml or name are \c NULL or empty. * This does not support greater than 64-bit values. */ const char * crm_xml_add_ll(xmlNode *xml, const char *name, long long value) { char s[LLSTRSIZE] = { '\0', }; if (snprintf(s, LLSTRSIZE, "%lld", (long long) value) == LLSTRSIZE) { return NULL; } return crm_xml_add(xml, name, s); } /*! * \brief Create XML attributes for seconds and microseconds * * This is like \c crm_xml_add() but taking a struct timeval. * * \param[in,out] xml XML node to modify * \param[in] name_sec Name of XML attribute for seconds * \param[in] name_usec Name of XML attribute for microseconds (or NULL) * \param[in] value Time value to set * * \return New seconds value as string on success, \c NULL otherwise * \note This does nothing if xml, name_sec, or value is \c NULL. */ const char * crm_xml_add_timeval(xmlNode *xml, const char *name_sec, const char *name_usec, const struct timeval *value) { const char *added = NULL; if (xml && name_sec && value) { added = crm_xml_add_ll(xml, name_sec, (long long) value->tv_sec); if (added && name_usec) { // Any error is ignored (we successfully added seconds) crm_xml_add_ll(xml, name_usec, (long long) value->tv_usec); } } return added; } /*! * \brief Retrieve the value of an XML attribute * * \param[in] data XML node to check * \param[in] name Attribute name to check * * \return Value of specified attribute (may be \c NULL) */ const char * crm_element_value(const xmlNode *data, const char *name) { xmlAttr *attr = NULL; if (data == NULL) { crm_err("Couldn't find %s in NULL", name ? name : ""); CRM_LOG_ASSERT(data != NULL); return NULL; } else if (name == NULL) { crm_err("Couldn't find NULL in %s", data->name); return NULL; } attr = xmlHasProp(data, (pcmkXmlStr) name); if (!attr || !attr->children) { return NULL; } return (const char *) attr->children->content; } /*! * \brief Retrieve the integer value of an XML attribute * * This is like \c crm_element_value() but getting the value as an integer. * * \param[in] data XML node to check * \param[in] name Attribute name to check * \param[out] dest Where to store element value * * \return 0 on success, -1 otherwise */ int crm_element_value_int(const xmlNode *data, const char *name, int *dest) { const char *value = NULL; CRM_CHECK(dest != NULL, return -1); value = crm_element_value(data, name); if (value) { long long value_ll; - - if ((pcmk__scan_ll(value, &value_ll, 0LL) != pcmk_rc_ok) - || (value_ll < INT_MIN) || (value_ll > INT_MAX)) { - *dest = PCMK__PARSE_INT_DEFAULT; + int rc = pcmk__scan_ll(value, &value_ll, 0LL); + + *dest = PCMK__PARSE_INT_DEFAULT; + if (rc != pcmk_rc_ok) { + crm_warn("Using default for %s " + "because '%s' is not a valid integer: %s", + name, value, pcmk_rc_str(rc)); + } else if ((value_ll < INT_MIN) || (value_ll > INT_MAX)) { + crm_warn("Using default for %s because '%s' is out of range", + name, value); } else { *dest = (int) value_ll; return 0; } } return -1; } /*! * \brief Retrieve the long long integer value of an XML attribute * * This is like \c crm_element_value() but getting the value as a long long int. * * \param[in] data XML node to check * \param[in] name Attribute name to check * \param[out] dest Where to store element value * * \return 0 on success, -1 otherwise */ int crm_element_value_ll(const xmlNode *data, const char *name, long long *dest) { const char *value = NULL; CRM_CHECK(dest != NULL, return -1); value = crm_element_value(data, name); - if ((value != NULL) - && (pcmk__scan_ll(value, dest, PCMK__PARSE_INT_DEFAULT) == pcmk_rc_ok)) { - return 0; + if (value != NULL) { + int rc = pcmk__scan_ll(value, dest, PCMK__PARSE_INT_DEFAULT); + + if (rc == pcmk_rc_ok) { + return 0; + } + crm_warn("Using default for %s " + "because '%s' is not a valid integer: %s", + name, value, pcmk_rc_str(rc)); } return -1; } /*! * \brief Retrieve the millisecond value of an XML attribute * * This is like \c crm_element_value() but returning the value as a guint. * * \param[in] data XML node to check * \param[in] name Attribute name to check * \param[out] dest Where to store attribute value * * \return \c pcmk_ok on success, -1 otherwise */ int crm_element_value_ms(const xmlNode *data, const char *name, guint *dest) { const char *value = NULL; long long value_ll; + int rc = pcmk_rc_ok; CRM_CHECK(dest != NULL, return -1); *dest = 0; value = crm_element_value(data, name); - if ((pcmk__scan_ll(value, &value_ll, 0LL) != pcmk_rc_ok) - || (value_ll < 0) || (value_ll > G_MAXUINT)) { + rc = pcmk__scan_ll(value, &value_ll, 0LL); + if (rc != pcmk_rc_ok) { + crm_warn("Using default for %s " + "because '%s' is not valid milliseconds: %s", + name, value, pcmk_rc_str(rc)); + return -1; + } + if ((value_ll < 0) || (value_ll > G_MAXUINT)) { + crm_warn("Using default for %s because '%s' is out of range", + name, value); return -1; } *dest = (guint) value_ll; return pcmk_ok; } /*! * \brief Retrieve the seconds-since-epoch value of an XML attribute * * This is like \c crm_element_value() but returning the value as a time_t. * * \param[in] xml XML node to check * \param[in] name Attribute name to check * \param[out] dest Where to store attribute value * * \return \c pcmk_ok on success, -1 otherwise */ int crm_element_value_epoch(const xmlNode *xml, const char *name, time_t *dest) { long long value_ll = 0; if (crm_element_value_ll(xml, name, &value_ll) < 0) { return -1; } /* Unfortunately, we can't do any bounds checking, since time_t has neither * standardized bounds nor constants defined for them. */ *dest = (time_t) value_ll; return pcmk_ok; } /*! * \brief Retrieve the value of XML second/microsecond attributes as time * * This is like \c crm_element_value() but returning value as a struct timeval. * * \param[in] xml XML to parse * \param[in] name_sec Name of XML attribute for seconds * \param[in] name_usec Name of XML attribute for microseconds * \param[out] dest Where to store result * * \return \c pcmk_ok on success, -errno on error * \note Values default to 0 if XML or XML attribute does not exist */ int crm_element_value_timeval(const xmlNode *xml, const char *name_sec, const char *name_usec, struct timeval *dest) { long long value_i = 0; CRM_CHECK(dest != NULL, return -EINVAL); dest->tv_sec = 0; dest->tv_usec = 0; if (xml == NULL) { return pcmk_ok; } /* Unfortunately, we can't do any bounds checking, since there are no * constants provided for the bounds of time_t and suseconds_t, and * calculating them isn't worth the effort. If there are XML values * beyond the native sizes, there will probably be worse problems anyway. */ // Parse seconds errno = 0; if (crm_element_value_ll(xml, name_sec, &value_i) < 0) { return -errno; } dest->tv_sec = (time_t) value_i; // Parse microseconds if (crm_element_value_ll(xml, name_usec, &value_i) < 0) { return -errno; } dest->tv_usec = (suseconds_t) value_i; return pcmk_ok; } /*! * \internal * \brief Get a date/time object from an XML attribute value * * \param[in] xml XML with attribute to parse (from CIB) * \param[in] attr Name of attribute to parse * \param[out] t Where to create date/time object * (\p *t must be NULL initially) * * \return Standard Pacemaker return code * \note The caller is responsible for freeing \p *t using crm_time_free(). */ int pcmk__xe_get_datetime(const xmlNode *xml, const char *attr, crm_time_t **t) { const char *value = NULL; if ((t == NULL) || (*t != NULL) || (xml == NULL) || (attr == NULL)) { return EINVAL; } value = crm_element_value(xml, attr); if (value != NULL) { *t = crm_time_new(value); if (*t == NULL) { return pcmk_rc_unpack_error; } } return pcmk_rc_ok; } /*! * \brief Retrieve a copy of the value of an XML attribute * * This is like \c crm_element_value() but allocating new memory for the result. * * \param[in] data XML node to check * \param[in] name Attribute name to check * * \return Value of specified attribute (may be \c NULL) * \note The caller is responsible for freeing the result. */ char * crm_element_value_copy(const xmlNode *data, const char *name) { return pcmk__str_copy(crm_element_value(data, name)); } /*! * \brief Safely add hash table entry to XML as attribute or name-value pair * * Suitable for \c g_hash_table_foreach(), this function takes a hash table key * and value, with an XML node passed as user data, and adds an XML attribute * with the specified name and value if it does not already exist. If the key * name starts with a digit, then it's not a valid XML attribute name. In that * case, this will instead add a child * to the XML. * * \param[in] key Key of hash table entry * \param[in] value Value of hash table entry * \param[in,out] user_data XML node */ void hash2smartfield(gpointer key, gpointer value, gpointer user_data) { /* @TODO Generate PCMK__XE_PARAM nodes for all keys that aren't valid XML * attribute names (not just those that start with digits), or possibly for * all keys to simplify parsing. * * Consider either deprecating as public API or exposing PCMK__XE_PARAM. * PCMK__XE_PARAM is currently private because it doesn't appear in any * output that Pacemaker generates. */ const char *name = key; const char *s_value = value; xmlNode *xml_node = user_data; if (isdigit(name[0])) { xmlNode *tmp = pcmk__xe_create(xml_node, PCMK__XE_PARAM); crm_xml_add(tmp, PCMK_XA_NAME, name); crm_xml_add(tmp, PCMK_XA_VALUE, s_value); } else if (crm_element_value(xml_node, name) == NULL) { crm_xml_add(xml_node, name, s_value); crm_trace("dumped: %s=%s", name, s_value); } else { crm_trace("duplicate: %s=%s", name, s_value); } } /*! * \brief Set XML attribute based on hash table entry * * Suitable for \c g_hash_table_foreach(), this function takes a hash table key * and value, with an XML node passed as user data, and adds an XML attribute * with the specified name and value if it does not already exist. * * \param[in] key Key of hash table entry * \param[in] value Value of hash table entry * \param[in,out] user_data XML node */ void hash2field(gpointer key, gpointer value, gpointer user_data) { const char *name = key; const char *s_value = value; xmlNode *xml_node = user_data; if (crm_element_value(xml_node, name) == NULL) { crm_xml_add(xml_node, name, s_value); } else { crm_trace("duplicate: %s=%s", name, s_value); } } /*! * \brief Set XML attribute based on hash table entry, as meta-attribute name * * Suitable for \c g_hash_table_foreach(), this function takes a hash table key * and value, with an XML node passed as user data, and adds an XML attribute * with the meta-attribute version of the specified name and value if it does * not already exist and if the name does not appear to be cluster-internal. * * \param[in] key Key of hash table entry * \param[in] value Value of hash table entry * \param[in,out] user_data XML node */ void hash2metafield(gpointer key, gpointer value, gpointer user_data) { char *crm_name = NULL; if (key == NULL || value == NULL) { return; } /* Filter out cluster-generated attributes that contain a '#' or ':' * (like fail-count and last-failure). */ for (crm_name = key; *crm_name; ++crm_name) { if ((*crm_name == '#') || (*crm_name == ':')) { return; } } crm_name = crm_meta_name(key); hash2field(crm_name, value, user_data); free(crm_name); } // nvpair handling /*! * \brief Create an XML name/value pair * * \param[in,out] parent If not \c NULL, make new XML node a child of this one * \param[in] id Set this as XML ID (or NULL to auto-generate) * \param[in] name Name to use * \param[in] value Value to use * * \return New XML object on success, \c NULL otherwise */ xmlNode * crm_create_nvpair_xml(xmlNode *parent, const char *id, const char *name, const char *value) { xmlNode *nvp; /* id can be NULL so we auto-generate one, and name can be NULL if this * will be used to delete a name/value pair by ID, but both can't be NULL */ CRM_CHECK(id || name, return NULL); nvp = pcmk__xe_create(parent, PCMK_XE_NVPAIR); if (id) { crm_xml_add(nvp, PCMK_XA_ID, id); } else { pcmk__xe_set_id(nvp, "%s-%s", pcmk__s(pcmk__xe_id(parent), PCMK_XE_NVPAIR), name); } crm_xml_add(nvp, PCMK_XA_NAME, name); crm_xml_add(nvp, PCMK_XA_VALUE, value); return nvp; } /*! * \brief Add XML nvpair element based on hash table entry * * Suitable for \c g_hash_table_foreach(), this function takes a hash table key * and value, with an XML node passed as the user data, and adds an \c nvpair * XML element with the specified name and value. * * \param[in] key Key of hash table entry * \param[in] value Value of hash table entry * \param[in,out] user_data XML node */ void hash2nvpair(gpointer key, gpointer value, gpointer user_data) { const char *name = key; const char *s_value = value; xmlNode *xml_node = user_data; crm_create_nvpair_xml(xml_node, name, name, s_value); crm_trace("dumped: name=%s value=%s", name, s_value); } /*! * \brief Retrieve XML attributes as a hash table * * Given an XML element, this will look for any \ element child, * creating a hash table of (newly allocated string) name/value pairs taken * first from the attributes element's NAME=VALUE XML attributes, and then * from any \ children of attributes. * * \param[in] XML node to parse * * \return Hash table with name/value pairs * \note It is the caller's responsibility to free the result using * \c g_hash_table_destroy(). */ GHashTable * xml2list(const xmlNode *parent) { xmlNode *child = NULL; xmlAttrPtr pIter = NULL; xmlNode *nvpair_list = NULL; GHashTable *nvpair_hash = pcmk__strkey_table(free, free); CRM_CHECK(parent != NULL, return nvpair_hash); nvpair_list = pcmk__xe_first_child(parent, PCMK__XE_ATTRIBUTES, NULL, NULL); if (nvpair_list == NULL) { crm_trace("No attributes in %s", parent->name); crm_log_xml_trace(parent, "No attributes for resource op"); } crm_log_xml_trace(nvpair_list, "Unpacking"); for (pIter = pcmk__xe_first_attr(nvpair_list); pIter != NULL; pIter = pIter->next) { const char *p_name = (const char *)pIter->name; const char *p_value = pcmk__xml_attr_value(pIter); crm_trace("Added %s=%s", p_name, p_value); pcmk__insert_dup(nvpair_hash, p_name, p_value); } for (child = pcmk__xe_first_child(nvpair_list, PCMK__XE_PARAM, NULL, NULL); child != NULL; child = pcmk__xe_next_same(child)) { const char *key = crm_element_value(child, PCMK_XA_NAME); const char *value = crm_element_value(child, PCMK_XA_VALUE); crm_trace("Added %s=%s", key, value); if (key != NULL && value != NULL) { pcmk__insert_dup(nvpair_hash, key, value); } } return nvpair_hash; } void pcmk__xe_set_bool_attr(xmlNodePtr node, const char *name, bool value) { crm_xml_add(node, name, pcmk__btoa(value)); } int pcmk__xe_get_bool_attr(const xmlNode *node, const char *name, bool *value) { const char *xml_value = NULL; int ret, rc; if (node == NULL) { return ENODATA; } else if (name == NULL || value == NULL) { return EINVAL; } xml_value = crm_element_value(node, name); if (xml_value == NULL) { return ENODATA; } rc = crm_str_to_boolean(xml_value, &ret); if (rc == 1) { *value = ret; return pcmk_rc_ok; } else { return pcmk_rc_bad_input; } } bool pcmk__xe_attr_is_true(const xmlNode *node, const char *name) { bool value = false; int rc; rc = pcmk__xe_get_bool_attr(node, name, &value); return rc == pcmk_rc_ok && value == true; } // Meta-attribute handling /*! * \brief Get the environment variable equivalent of a meta-attribute name * * \param[in] attr_name Name of meta-attribute * * \return Newly allocated string for \p attr_name with "CRM_meta_" prefix and * underbars instead of dashes * \note This asserts on an invalid argument or memory allocation error, so * callers can assume the result is non-NULL. The caller is responsible * for freeing the result using free(). */ char * crm_meta_name(const char *attr_name) { char *env_name = NULL; CRM_ASSERT(!pcmk__str_empty(attr_name)); env_name = crm_strdup_printf(CRM_META "_%s", attr_name); for (char *c = env_name; *c != '\0'; ++c) { if (*c == '-') { *c = '_'; } } return env_name; } /*! * \brief Get the value of a meta-attribute * * Get the value of a meta-attribute from a hash table whose keys are * meta-attribute environment variable names (as crm_meta_name() would * create, like pcmk__graph_action_t:params, not pcmk_resource_t:meta). * * \param[in] meta Hash table of meta-attributes * \param[in] attr_name Name of meta-attribute to get * * \return Value of given meta-attribute */ const char * crm_meta_value(GHashTable *meta, const char *attr_name) { if ((meta != NULL) && (attr_name != NULL)) { char *key = crm_meta_name(attr_name); const char *value = g_hash_table_lookup(meta, key); free(key); return value; } return NULL; } diff --git a/lib/common/rules.c b/lib/common/rules.c index 021ca505cd..382b25ca61 100644 --- a/lib/common/rules.c +++ b/lib/common/rules.c @@ -1,1467 +1,1468 @@ /* * Copyright 2004-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include // NULL, size_t #include // bool #include // isdigit() #include // regmatch_t #include // uint32_t #include // PRIu32 #include // gboolean, FALSE #include // xmlNode #include #include #include #include #include "crmcommon_private.h" /*! * \internal * \brief Get the condition type corresponding to given condition XML * * \param[in] condition Rule condition XML * * \return Condition type corresponding to \p condition */ enum expression_type pcmk__condition_type(const xmlNode *condition) { const char *name = NULL; // Expression types based on element name if (pcmk__xe_is(condition, PCMK_XE_DATE_EXPRESSION)) { return pcmk__condition_datetime; } else if (pcmk__xe_is(condition, PCMK_XE_RSC_EXPRESSION)) { return pcmk__condition_resource; } else if (pcmk__xe_is(condition, PCMK_XE_OP_EXPRESSION)) { return pcmk__condition_operation; } else if (pcmk__xe_is(condition, PCMK_XE_RULE)) { return pcmk__condition_rule; } else if (!pcmk__xe_is(condition, PCMK_XE_EXPRESSION)) { return pcmk__condition_unknown; } // Expression types based on node attribute name name = crm_element_value(condition, PCMK_XA_ATTRIBUTE); if (pcmk__str_any_of(name, CRM_ATTR_UNAME, CRM_ATTR_KIND, CRM_ATTR_ID, NULL)) { return pcmk__condition_location; } return pcmk__condition_attribute; } /*! * \internal * \brief Get parent XML element's ID for logging purposes * * \param[in] xml XML of a subelement * * \return ID of \p xml's parent for logging purposes (guaranteed non-NULL) */ static const char * loggable_parent_id(const xmlNode *xml) { // Default if called without parent (likely for unit testing) const char *parent_id = "implied"; if ((xml != NULL) && (xml->parent != NULL)) { parent_id = pcmk__xe_id(xml->parent); if (parent_id == NULL) { // Not possible with schema validation enabled parent_id = "without ID"; } } return parent_id; } /*! * \internal * \brief Get the moon phase corresponding to a given date/time * * \param[in] now Date/time to get moon phase for * * \return Phase of the moon corresponding to \p now, where 0 is the new moon * and 7 is the full moon * \deprecated This feature has been deprecated since 2.1.6. */ static int phase_of_the_moon(const crm_time_t *now) { /* As per the nethack rules: * - A moon period is 29.53058 days ~= 30 * - A year is 365.2422 days * - Number of days moon phase advances on first day of year compared to * preceding year is (365.2422 - 12 * 29.53058) ~= 11 * - Number of years until same phases fall on the same days of the month * is 18.6 ~= 19 * - Moon phase on first day of year (epact) ~= (11 * (year%19) + 29) % 30 * (29 as initial condition) * - Current phase in days = first day phase + days elapsed in year * - 6 moons ~= 177 days ~= 8 reported phases * 22 (+ 11/22 for rounding) */ uint32_t epact, diy, goldn; uint32_t y; crm_time_get_ordinal(now, &y, &diy); goldn = (y % 19) + 1; epact = (11 * goldn + 18) % 30; if (((epact == 25) && (goldn > 11)) || (epact == 24)) { epact++; } return (((((diy + epact) * 6) + 11) % 177) / 22) & 7; } /*! * \internal * \brief Check an integer value against a range from a date specification * * \param[in] date_spec XML of PCMK_XE_DATE_SPEC element to check * \param[in] id XML ID of parent date expression for logging purposes * \param[in] attr Name of XML attribute with range to check against * \param[in] value Value to compare against range * * \return Standard Pacemaker return code (specifically, pcmk_rc_before_range, * pcmk_rc_after_range, or pcmk_rc_ok to indicate that result is either * within range or undetermined) * \note We return pcmk_rc_ok for an undetermined result so we can continue * checking the next range attribute. */ static int check_range(const xmlNode *date_spec, const char *id, const char *attr, uint32_t value) { int rc = pcmk_rc_ok; const char *range = crm_element_value(date_spec, attr); long long low, high; if (range == NULL) { // Attribute not present } else if (pcmk__parse_ll_range(range, &low, &high) != pcmk_rc_ok) { // Invalid range pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s " "as not passing because '%s' is not a valid range " "for " PCMK_XE_DATE_SPEC " attribute %s", id, range, attr); rc = pcmk_rc_unpack_error; } else if ((low != -1) && (value < low)) { rc = pcmk_rc_before_range; } else if ((high != -1) && (value > high)) { rc = pcmk_rc_after_range; } crm_trace(PCMK_XE_DATE_EXPRESSION " %s: " PCMK_XE_DATE_SPEC " %s='%s' for %" PRIu32 ": %s", id, attr, pcmk__s(range, ""), value, pcmk_rc_str(rc)); return rc; } /*! * \internal * \brief Evaluate a date specification for a given date/time * * \param[in] date_spec XML of PCMK_XE_DATE_SPEC element to evaluate * \param[in] now Time to check * * \return Standard Pacemaker return code (specifically, EINVAL for NULL * arguments, pcmk_rc_unpack_error if the specification XML is invalid, * \c pcmk_rc_ok if \p now is within the specification's ranges, or * \c pcmk_rc_before_range or \c pcmk_rc_after_range as appropriate) */ int pcmk__evaluate_date_spec(const xmlNode *date_spec, const crm_time_t *now) { const char *id = NULL; const char *parent_id = loggable_parent_id(date_spec); // Range attributes that can be specified for a PCMK_XE_DATE_SPEC element struct range { const char *attr; uint32_t value; } ranges[] = { { PCMK_XA_YEARS, 0U }, { PCMK_XA_MONTHS, 0U }, { PCMK_XA_MONTHDAYS, 0U }, { PCMK_XA_HOURS, 0U }, { PCMK_XA_MINUTES, 0U }, { PCMK_XA_SECONDS, 0U }, { PCMK_XA_YEARDAYS, 0U }, { PCMK_XA_WEEKYEARS, 0U }, { PCMK_XA_WEEKS, 0U }, { PCMK_XA_WEEKDAYS, 0U }, { PCMK__XA_MOON, 0U }, }; if ((date_spec == NULL) || (now == NULL)) { return EINVAL; } // Get specification ID (for logging) id = pcmk__xe_id(date_spec); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_XE_DATE_SPEC " subelement has no " PCMK_XA_ID, parent_id); return pcmk_rc_unpack_error; } // Year, month, day crm_time_get_gregorian(now, &(ranges[0].value), &(ranges[1].value), &(ranges[2].value)); // Hour, minute, second crm_time_get_timeofday(now, &(ranges[3].value), &(ranges[4].value), &(ranges[5].value)); // Year (redundant) and day of year crm_time_get_ordinal(now, &(ranges[0].value), &(ranges[6].value)); // Week year, week of week year, day of week crm_time_get_isoweek(now, &(ranges[7].value), &(ranges[8].value), &(ranges[9].value)); // Moon phase (deprecated) ranges[10].value = phase_of_the_moon(now); if (crm_element_value(date_spec, PCMK__XA_MOON) != NULL) { pcmk__config_warn("Support for '" PCMK__XA_MOON "' in " PCMK_XE_DATE_SPEC " elements (such as %s) is " "deprecated and will be removed in a future release " "of Pacemaker", id); } for (int i = 0; i < PCMK__NELEM(ranges); ++i) { int rc = check_range(date_spec, parent_id, ranges[i].attr, ranges[i].value); if (rc != pcmk_rc_ok) { return rc; } } // All specified ranges passed, or none were given (also considered a pass) return pcmk_rc_ok; } #define ADD_COMPONENT(component) do { \ int rc = pcmk__add_time_from_xml(*end, component, duration); \ if (rc != pcmk_rc_ok) { \ pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s " \ "as not passing because " PCMK_XE_DURATION \ - " %s attribute %s is invalid", \ + " %s attribute %s is invalid: %s", \ parent_id, id, \ - pcmk__time_component_attr(component)); \ + pcmk__time_component_attr(component), \ + pcmk_rc_str(rc)); \ crm_time_free(*end); \ *end = NULL; \ return rc; \ } \ } while (0) /*! * \internal * \brief Given a duration and a start time, calculate the end time * * \param[in] duration XML of PCMK_XE_DURATION element * \param[in] start Start time * \param[out] end Where to store end time (\p *end must be NULL * initially) * * \return Standard Pacemaker return code * \note The caller is responsible for freeing \p *end using crm_time_free(). */ int pcmk__unpack_duration(const xmlNode *duration, const crm_time_t *start, crm_time_t **end) { const char *id = NULL; const char *parent_id = loggable_parent_id(duration); if ((start == NULL) || (duration == NULL) || (end == NULL) || (*end != NULL)) { return EINVAL; } // Get duration ID (for logging) id = pcmk__xe_id(duration); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s " "as not passing because " PCMK_XE_DURATION " subelement has no " PCMK_XA_ID, parent_id); return pcmk_rc_unpack_error; } *end = pcmk_copy_time(start); ADD_COMPONENT(pcmk__time_years); ADD_COMPONENT(pcmk__time_months); ADD_COMPONENT(pcmk__time_weeks); ADD_COMPONENT(pcmk__time_days); ADD_COMPONENT(pcmk__time_hours); ADD_COMPONENT(pcmk__time_minutes); ADD_COMPONENT(pcmk__time_seconds); return pcmk_rc_ok; } /*! * \internal * \brief Evaluate a range check for a given date/time * * \param[in] date_expression XML of PCMK_XE_DATE_EXPRESSION element * \param[in] id Expression ID for logging purposes * \param[in] now Date/time to compare * \param[in,out] next_change If not NULL, set this to when the evaluation * will change, if known and earlier than the * original value * * \return Standard Pacemaker return code */ static int evaluate_in_range(const xmlNode *date_expression, const char *id, const crm_time_t *now, crm_time_t *next_change) { crm_time_t *start = NULL; crm_time_t *end = NULL; if (pcmk__xe_get_datetime(date_expression, PCMK_XA_START, &start) != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_XA_START " is invalid", id); return pcmk_rc_unpack_error; } if (pcmk__xe_get_datetime(date_expression, PCMK_XA_END, &end) != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_XA_END " is invalid", id); crm_time_free(start); return pcmk_rc_unpack_error; } if ((start == NULL) && (end == NULL)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_VALUE_IN_RANGE " requires at least one of " PCMK_XA_START " or " PCMK_XA_END, id); return pcmk_rc_unpack_error; } if (end == NULL) { xmlNode *duration = pcmk__xe_first_child(date_expression, PCMK_XE_DURATION, NULL, NULL); if (duration != NULL) { int rc = pcmk__unpack_duration(duration, start, &end); if (rc != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not passing because duration " "is invalid", id); crm_time_free(start); return rc; } } } if ((start != NULL) && (crm_time_compare(now, start) < 0)) { pcmk__set_time_if_earlier(next_change, start); crm_time_free(start); crm_time_free(end); return pcmk_rc_before_range; } if (end != NULL) { if (crm_time_compare(now, end) > 0) { crm_time_free(start); crm_time_free(end); return pcmk_rc_after_range; } // Evaluation doesn't change until second after end if (next_change != NULL) { crm_time_add_seconds(end, 1); pcmk__set_time_if_earlier(next_change, end); } } crm_time_free(start); crm_time_free(end); return pcmk_rc_within_range; } /*! * \internal * \brief Evaluate a greater-than check for a given date/time * * \param[in] date_expression XML of PCMK_XE_DATE_EXPRESSION element * \param[in] id Expression ID for logging purposes * \param[in] now Date/time to compare * \param[in,out] next_change If not NULL, set this to when the evaluation * will change, if known and earlier than the * original value * * \return Standard Pacemaker return code */ static int evaluate_gt(const xmlNode *date_expression, const char *id, const crm_time_t *now, crm_time_t *next_change) { crm_time_t *start = NULL; if (pcmk__xe_get_datetime(date_expression, PCMK_XA_START, &start) != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_XA_START " is invalid", id); return pcmk_rc_unpack_error; } if (start == NULL) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_VALUE_GT " requires " PCMK_XA_START, id); return pcmk_rc_unpack_error; } if (crm_time_compare(now, start) > 0) { crm_time_free(start); return pcmk_rc_within_range; } // Evaluation doesn't change until second after start time crm_time_add_seconds(start, 1); pcmk__set_time_if_earlier(next_change, start); crm_time_free(start); return pcmk_rc_before_range; } /*! * \internal * \brief Evaluate a less-than check for a given date/time * * \param[in] date_expression XML of PCMK_XE_DATE_EXPRESSION element * \param[in] id Expression ID for logging purposes * \param[in] now Date/time to compare * \param[in,out] next_change If not NULL, set this to when the evaluation * will change, if known and earlier than the * original value * * \return Standard Pacemaker return code */ static int evaluate_lt(const xmlNode *date_expression, const char *id, const crm_time_t *now, crm_time_t *next_change) { crm_time_t *end = NULL; if (pcmk__xe_get_datetime(date_expression, PCMK_XA_END, &end) != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_XA_END " is invalid", id); return pcmk_rc_unpack_error; } if (end == NULL) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not " "passing because " PCMK_VALUE_GT " requires " PCMK_XA_END, id); return pcmk_rc_unpack_error; } if (crm_time_compare(now, end) < 0) { pcmk__set_time_if_earlier(next_change, end); crm_time_free(end); return pcmk_rc_within_range; } crm_time_free(end); return pcmk_rc_after_range; } /*! * \internal * \brief Evaluate a rule's date expression for a given date/time * * \param[in] date_expression XML of a PCMK_XE_DATE_EXPRESSION element * \param[in] now Time to use for evaluation * \param[in,out] next_change If not NULL, set this to when the evaluation * will change, if known and earlier than the * original value * * \return Standard Pacemaker return code (unlike most other evaluation * functions, this can return either pcmk_rc_ok or pcmk_rc_within_range * on success) */ int pcmk__evaluate_date_expression(const xmlNode *date_expression, const crm_time_t *now, crm_time_t *next_change) { const char *id = NULL; const char *op = NULL; int rc = pcmk_rc_ok; if ((date_expression == NULL) || (now == NULL)) { return EINVAL; } // Get expression ID (for logging) id = pcmk__xe_id(date_expression); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " without " PCMK_XA_ID " as not passing"); return pcmk_rc_unpack_error; } op = crm_element_value(date_expression, PCMK_XA_OPERATION); if (pcmk__str_eq(op, PCMK_VALUE_IN_RANGE, pcmk__str_null_matches|pcmk__str_casei)) { rc = evaluate_in_range(date_expression, id, now, next_change); } else if (pcmk__str_eq(op, PCMK_VALUE_DATE_SPEC, pcmk__str_casei)) { xmlNode *date_spec = pcmk__xe_first_child(date_expression, PCMK_XE_DATE_SPEC, NULL, NULL); if (date_spec == NULL) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s " "as not passing because " PCMK_VALUE_DATE_SPEC " operations require a " PCMK_XE_DATE_SPEC " subelement", id); return pcmk_rc_unpack_error; } // @TODO set next_change appropriately rc = pcmk__evaluate_date_spec(date_spec, now); } else if (pcmk__str_eq(op, PCMK_VALUE_GT, pcmk__str_casei)) { rc = evaluate_gt(date_expression, id, now, next_change); } else if (pcmk__str_eq(op, PCMK_VALUE_LT, pcmk__str_casei)) { rc = evaluate_lt(date_expression, id, now, next_change); } else { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_DATE_EXPRESSION " %s as not passing because '%s' is not a valid " PCMK_XE_OPERATION, id, op); return pcmk_rc_unpack_error; } crm_trace(PCMK_XE_DATE_EXPRESSION " %s (%s): %s (%d)", id, op, pcmk_rc_str(rc), rc); return rc; } /*! * \internal * \brief Go through submatches in a string, either counting how many bytes * would be needed for the expansion, or performing the expansion, * as requested * * \param[in] string String possibly containing submatch variables * \param[in] match String that matched the regular expression * \param[in] submatches Regular expression submatches (as set by regexec()) * \param[in] nmatches Number of entries in \p submatches[] * \param[out] expansion If not NULL, expand string here (must be * pre-allocated to appropriate size) * \param[out] nbytes If not NULL, set to size needed for expansion * * \return true if any expansion is needed, otherwise false */ static bool process_submatches(const char *string, const char *match, const regmatch_t submatches[], int nmatches, char *expansion, size_t *nbytes) { bool expanded = false; const char *src = string; if (nbytes != NULL) { *nbytes = 1; // Include space for terminator } while (*src != '\0') { int submatch = 0; size_t match_len = 0; if ((src[0] != '%') || !isdigit(src[1])) { /* src does not point to the first character of a %N sequence, * so expand this character as-is */ if (expansion != NULL) { *expansion++ = *src; } if (nbytes != NULL) { ++(*nbytes); } ++src; continue; } submatch = src[1] - '0'; src += 2; // Skip over %N sequence in source string expanded = true; // Expansion will be different from source // Omit sequence from expansion unless it has a non-empty match if ((nmatches <= submatch) // Not enough submatches || (submatches[submatch].rm_so < 0) // Pattern did not match || (submatches[submatch].rm_eo <= submatches[submatch].rm_so)) { // Match was empty continue; } match_len = submatches[submatch].rm_eo - submatches[submatch].rm_so; if (nbytes != NULL) { *nbytes += match_len; } if (expansion != NULL) { memcpy(expansion, match + submatches[submatch].rm_so, match_len); expansion += match_len; } } return expanded; } /*! * \internal * \brief Expand any regular expression submatches (%0-%9) in a string * * \param[in] string String possibly containing submatch variables * \param[in] match String that matched the regular expression * \param[in] submatches Regular expression submatches (as set by regexec()) * \param[in] nmatches Number of entries in \p submatches[] * * \return Newly allocated string identical to \p string with submatches * expanded on success, or NULL if no expansions were needed * \note The caller is responsible for freeing the result with free() */ char * pcmk__replace_submatches(const char *string, const char *match, const regmatch_t submatches[], int nmatches) { size_t nbytes = 0; char *result = NULL; if (pcmk__str_empty(string) || pcmk__str_empty(match)) { return NULL; // Nothing to expand } // Calculate how much space will be needed for expanded string if (!process_submatches(string, match, submatches, nmatches, NULL, &nbytes)) { return NULL; // No expansions needed } // Allocate enough space for expanded string result = pcmk__assert_alloc(nbytes, sizeof(char)); // Expand submatches (void) process_submatches(string, match, submatches, nmatches, result, NULL); return result; } /*! * \internal * \brief Parse a comparison type from a string * * \param[in] op String with comparison type (valid values are * \c PCMK_VALUE_DEFINED, \c PCMK_VALUE_NOT_DEFINED, * \c PCMK_VALUE_EQ, \c PCMK_VALUE_NE, * \c PCMK_VALUE_LT, \c PCMK_VALUE_LTE, * \c PCMK_VALUE_GT, or \c PCMK_VALUE_GTE) * * \return Comparison type corresponding to \p op */ enum pcmk__comparison pcmk__parse_comparison(const char *op) { if (pcmk__str_eq(op, PCMK_VALUE_DEFINED, pcmk__str_casei)) { return pcmk__comparison_defined; } else if (pcmk__str_eq(op, PCMK_VALUE_NOT_DEFINED, pcmk__str_casei)) { return pcmk__comparison_undefined; } else if (pcmk__str_eq(op, PCMK_VALUE_EQ, pcmk__str_casei)) { return pcmk__comparison_eq; } else if (pcmk__str_eq(op, PCMK_VALUE_NE, pcmk__str_casei)) { return pcmk__comparison_ne; } else if (pcmk__str_eq(op, PCMK_VALUE_LT, pcmk__str_casei)) { return pcmk__comparison_lt; } else if (pcmk__str_eq(op, PCMK_VALUE_LTE, pcmk__str_casei)) { return pcmk__comparison_lte; } else if (pcmk__str_eq(op, PCMK_VALUE_GT, pcmk__str_casei)) { return pcmk__comparison_gt; } else if (pcmk__str_eq(op, PCMK_VALUE_GTE, pcmk__str_casei)) { return pcmk__comparison_gte; } return pcmk__comparison_unknown; } /*! * \internal * \brief Parse a value type from a string * * \param[in] type String with value type (valid values are NULL, * \c PCMK_VALUE_STRING, \c PCMK_VALUE_INTEGER, * \c PCMK_VALUE_NUMBER, and \c PCMK_VALUE_VERSION) * \param[in] op Operation type (used only to select default) * \param[in] value1 First value being compared (used only to select default) * \param[in] value2 Second value being compared (used only to select default) */ enum pcmk__type pcmk__parse_type(const char *type, enum pcmk__comparison op, const char *value1, const char *value2) { if (type == NULL) { switch (op) { case pcmk__comparison_lt: case pcmk__comparison_lte: case pcmk__comparison_gt: case pcmk__comparison_gte: if (((value1 != NULL) && (strchr(value1, '.') != NULL)) || ((value2 != NULL) && (strchr(value2, '.') != NULL))) { return pcmk__type_number; } return pcmk__type_integer; default: return pcmk__type_string; } } if (pcmk__str_eq(type, PCMK_VALUE_STRING, pcmk__str_casei)) { return pcmk__type_string; } else if (pcmk__str_eq(type, PCMK_VALUE_INTEGER, pcmk__str_casei)) { return pcmk__type_integer; } else if (pcmk__str_eq(type, PCMK_VALUE_NUMBER, pcmk__str_casei)) { return pcmk__type_number; } else if (pcmk__str_eq(type, PCMK_VALUE_VERSION, pcmk__str_casei)) { return pcmk__type_version; } return pcmk__type_unknown; } /*! * \internal * \brief Compare two strings according to a given type * * \param[in] value1 String with first value to compare * \param[in] value2 String with second value to compare * \param[in] type How to interpret the values * * \return Standard comparison result (a negative integer if \p value1 is * lesser, 0 if the values are equal, and a positive integer if * \p value1 is greater) */ int pcmk__cmp_by_type(const char *value1, const char *value2, enum pcmk__type type) { // NULL compares as less than non-NULL if (value2 == NULL) { return (value1 == NULL)? 0 : 1; } if (value1 == NULL) { return -1; } switch (type) { case pcmk__type_string: return strcasecmp(value1, value2); case pcmk__type_integer: { long long integer1; long long integer2; if ((pcmk__scan_ll(value1, &integer1, 0LL) != pcmk_rc_ok) || (pcmk__scan_ll(value2, &integer2, 0LL) != pcmk_rc_ok)) { crm_warn("Comparing '%s' and '%s' as strings because " "invalid as integers", value1, value2); return strcasecmp(value1, value2); } return (integer1 < integer2)? -1 : (integer1 > integer2)? 1 : 0; } break; case pcmk__type_number: { double num1; double num2; if ((pcmk__scan_double(value1, &num1, NULL, NULL) != pcmk_rc_ok) || (pcmk__scan_double(value2, &num2, NULL, NULL) != pcmk_rc_ok)) { crm_warn("Comparing '%s' and '%s' as strings because invalid as " "numbers", value1, value2); return strcasecmp(value1, value2); } return (num1 < num2)? -1 : (num1 > num2)? 1 : 0; } break; case pcmk__type_version: return compare_version(value1, value2); default: // Invalid type return 0; } } /*! * \internal * \brief Parse a reference value source from a string * * \param[in] source String indicating reference value source * * \return Reference value source corresponding to \p source */ enum pcmk__reference_source pcmk__parse_source(const char *source) { if (pcmk__str_eq(source, PCMK_VALUE_LITERAL, pcmk__str_casei|pcmk__str_null_matches)) { return pcmk__source_literal; } else if (pcmk__str_eq(source, PCMK_VALUE_PARAM, pcmk__str_casei)) { return pcmk__source_instance_attrs; } else if (pcmk__str_eq(source, PCMK_VALUE_META, pcmk__str_casei)) { return pcmk__source_meta_attrs; } else { return pcmk__source_unknown; } } /*! * \internal * \brief Parse a boolean operator from a string * * \param[in] combine String indicating boolean operator * * \return Enumeration value corresponding to \p combine */ enum pcmk__combine pcmk__parse_combine(const char *combine) { if (pcmk__str_eq(combine, PCMK_VALUE_AND, pcmk__str_null_matches|pcmk__str_casei)) { return pcmk__combine_and; } else if (pcmk__str_eq(combine, PCMK_VALUE_OR, pcmk__str_casei)) { return pcmk__combine_or; } else { return pcmk__combine_unknown; } } /*! * \internal * \brief Get the result of a node attribute comparison for rule evaluation * * \param[in] actual Actual node attribute value * \param[in] reference Node attribute value from rule (ignored for * \p comparison of \c pcmk__comparison_defined or * \c pcmk__comparison_undefined) * \param[in] type How to interpret the values * \param[in] comparison How to compare the values * * \return Standard Pacemaker return code (specifically, \c pcmk_rc_ok if the * comparison passes, and some other value if it does not) */ static int evaluate_attr_comparison(const char *actual, const char *reference, enum pcmk__type type, enum pcmk__comparison comparison) { int cmp = 0; switch (comparison) { case pcmk__comparison_defined: return (actual != NULL)? pcmk_rc_ok : pcmk_rc_op_unsatisfied; case pcmk__comparison_undefined: return (actual == NULL)? pcmk_rc_ok : pcmk_rc_op_unsatisfied; default: break; } cmp = pcmk__cmp_by_type(actual, reference, type); switch (comparison) { case pcmk__comparison_eq: return (cmp == 0)? pcmk_rc_ok : pcmk_rc_op_unsatisfied; case pcmk__comparison_ne: return (cmp != 0)? pcmk_rc_ok : pcmk_rc_op_unsatisfied; default: break; } if ((actual == NULL) || (reference == NULL)) { return pcmk_rc_op_unsatisfied; // Comparison would be meaningless } switch (comparison) { case pcmk__comparison_lt: return (cmp < 0)? pcmk_rc_ok : pcmk_rc_after_range; case pcmk__comparison_lte: return (cmp <= 0)? pcmk_rc_ok : pcmk_rc_after_range; case pcmk__comparison_gt: return (cmp > 0)? pcmk_rc_ok : pcmk_rc_before_range; case pcmk__comparison_gte: return (cmp >= 0)? pcmk_rc_ok : pcmk_rc_before_range; default: // Not possible with schema validation enabled return pcmk_rc_op_unsatisfied; } } /*! * \internal * \brief Get a reference value from a configured source * * \param[in] value Value given in rule expression * \param[in] source Reference value source * \param[in] rule_input Values used to evaluate rule criteria */ static const char * value_from_source(const char *value, enum pcmk__reference_source source, const pcmk_rule_input_t *rule_input) { GHashTable *table = NULL; switch (source) { case pcmk__source_literal: return value; case pcmk__source_instance_attrs: table = rule_input->rsc_params; break; case pcmk__source_meta_attrs: table = rule_input->rsc_meta; break; default: return NULL; // Not possible } if (table == NULL) { return NULL; } return (const char *) g_hash_table_lookup(table, value); } /*! * \internal * \brief Evaluate a node attribute rule expression * * \param[in] expression XML of a rule's PCMK_XE_EXPRESSION subelement * \param[in] rule_input Values used to evaluate rule criteria * * \return Standard Pacemaker return code (\c pcmk_rc_ok if the expression * passes, some other value if it does not) */ int pcmk__evaluate_attr_expression(const xmlNode *expression, const pcmk_rule_input_t *rule_input) { const char *id = NULL; const char *op = NULL; const char *attr = NULL; const char *type_s = NULL; const char *value = NULL; const char *actual = NULL; const char *source_s = NULL; const char *reference = NULL; char *expanded_attr = NULL; int rc = pcmk_rc_ok; enum pcmk__type type = pcmk__type_unknown; enum pcmk__reference_source source = pcmk__source_unknown; enum pcmk__comparison comparison = pcmk__comparison_unknown; if ((expression == NULL) || (rule_input == NULL)) { return EINVAL; } // Get expression ID (for logging) id = pcmk__xe_id(expression); if (pcmk__str_empty(id)) { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " without " PCMK_XA_ID " as not passing"); return pcmk_rc_unpack_error; } /* Get name of node attribute to compare (expanding any %0-%9 to * regular expression submatches) */ attr = crm_element_value(expression, PCMK_XA_ATTRIBUTE); if (attr == NULL) { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not passing " "because " PCMK_XA_ATTRIBUTE " was not specified", id); return pcmk_rc_unpack_error; } expanded_attr = pcmk__replace_submatches(attr, rule_input->rsc_id, rule_input->rsc_id_submatches, rule_input->rsc_id_nmatches); if (expanded_attr != NULL) { attr = expanded_attr; } // Get and validate operation op = crm_element_value(expression, PCMK_XA_OPERATION); comparison = pcmk__parse_comparison(op); if (comparison == pcmk__comparison_unknown) { // Not possible with schema validation enabled if (op == NULL) { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not " "passing because it has no " PCMK_XA_OPERATION, id); } else { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not " "passing because '%s' is not a valid " PCMK_XA_OPERATION, id, op); } rc = pcmk_rc_unpack_error; goto done; } // How reference value is obtained (literal, resource meta-attribute, etc.) source_s = crm_element_value(expression, PCMK_XA_VALUE_SOURCE); source = pcmk__parse_source(source_s); if (source == pcmk__source_unknown) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not passing " "because '%s' is not a valid " PCMK_XA_VALUE_SOURCE, id, source_s); rc = pcmk_rc_unpack_error; goto done; } // Get and validate reference value value = crm_element_value(expression, PCMK_XA_VALUE); switch (comparison) { case pcmk__comparison_defined: case pcmk__comparison_undefined: if (value != NULL) { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not " "passing because " PCMK_XA_VALUE " is not " "allowed when " PCMK_XA_OPERATION " is %s", id, op); rc = pcmk_rc_unpack_error; goto done; } break; default: if (value == NULL) { pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not " "passing because " PCMK_XA_VALUE " is " "required when " PCMK_XA_OPERATION " is %s", id, op); rc = pcmk_rc_unpack_error; goto done; } reference = value_from_source(value, source, rule_input); break; } // Get actual value of node attribute if (rule_input->node_attrs != NULL) { actual = g_hash_table_lookup(rule_input->node_attrs, attr); } // Get and validate value type (after expanding reference value) type_s = crm_element_value(expression, PCMK_XA_TYPE); type = pcmk__parse_type(type_s, comparison, actual, reference); if (type == pcmk__type_unknown) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_EXPRESSION " %s as not passing " "because '%s' is not a valid type", id, type_s); rc = pcmk_rc_unpack_error; goto done; } rc = evaluate_attr_comparison(actual, reference, type, comparison); switch (comparison) { case pcmk__comparison_defined: case pcmk__comparison_undefined: crm_trace(PCMK_XE_EXPRESSION " %s result: %s (for attribute %s %s)", id, pcmk_rc_str(rc), attr, op); break; default: crm_trace(PCMK_XE_EXPRESSION " %s result: " "%s (attribute %s %s '%s' via %s source as %s type)", id, pcmk_rc_str(rc), attr, op, pcmk__s(reference, ""), pcmk__s(source_s, "default"), pcmk__s(type_s, "default")); break; } done: free(expanded_attr); return rc; } /*! * \internal * \brief Evaluate a resource rule expression * * \param[in] rsc_expression XML of rule's \c PCMK_XE_RSC_EXPRESSION subelement * \param[in] rule_input Values used to evaluate rule criteria * * \return Standard Pacemaker return code (\c pcmk_rc_ok if the expression * passes, some other value if it does not) */ int pcmk__evaluate_rsc_expression(const xmlNode *rsc_expression, const pcmk_rule_input_t *rule_input) { const char *id = NULL; const char *standard = NULL; const char *provider = NULL; const char *type = NULL; if ((rsc_expression == NULL) || (rule_input == NULL)) { return EINVAL; } // Validate XML ID id = pcmk__xe_id(rsc_expression); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_RSC_EXPRESSION " without " PCMK_XA_ID " as not passing"); return pcmk_rc_unpack_error; } // Compare resource standard standard = crm_element_value(rsc_expression, PCMK_XA_CLASS); if ((standard != NULL) && !pcmk__str_eq(standard, rule_input->rsc_standard, pcmk__str_none)) { crm_trace(PCMK_XE_RSC_EXPRESSION " %s is unsatisfied because " "actual standard '%s' doesn't match '%s'", id, pcmk__s(rule_input->rsc_standard, ""), standard); return pcmk_rc_op_unsatisfied; } // Compare resource provider provider = crm_element_value(rsc_expression, PCMK_XA_PROVIDER); if ((provider != NULL) && !pcmk__str_eq(provider, rule_input->rsc_provider, pcmk__str_none)) { crm_trace(PCMK_XE_RSC_EXPRESSION " %s is unsatisfied because " "actual provider '%s' doesn't match '%s'", id, pcmk__s(rule_input->rsc_provider, ""), provider); return pcmk_rc_op_unsatisfied; } // Compare resource agent type type = crm_element_value(rsc_expression, PCMK_XA_TYPE); if ((type != NULL) && !pcmk__str_eq(type, rule_input->rsc_agent, pcmk__str_none)) { crm_trace(PCMK_XE_RSC_EXPRESSION " %s is unsatisfied because " "actual agent '%s' doesn't match '%s'", id, pcmk__s(rule_input->rsc_agent, ""), type); return pcmk_rc_op_unsatisfied; } crm_trace(PCMK_XE_RSC_EXPRESSION " %s is satisfied by %s%s%s:%s", id, pcmk__s(standard, ""), ((provider == NULL)? "" : ":"), pcmk__s(provider, ""), pcmk__s(type, "")); return pcmk_rc_ok; } /*! * \internal * \brief Evaluate an operation rule expression * * \param[in] op_expression XML of a rule's \c PCMK_XE_OP_EXPRESSION subelement * \param[in] rule_input Values used to evaluate rule criteria * * \return Standard Pacemaker return code (\c pcmk_rc_ok if the expression * is satisfied, some other value if it is not) */ int pcmk__evaluate_op_expression(const xmlNode *op_expression, const pcmk_rule_input_t *rule_input) { const char *id = NULL; const char *name = NULL; const char *interval_s = NULL; guint interval_ms = 0U; if ((op_expression == NULL) || (rule_input == NULL)) { return EINVAL; } // Get operation expression ID (for logging) id = pcmk__xe_id(op_expression); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_OP_EXPRESSION " without " PCMK_XA_ID " as not passing"); return pcmk_rc_unpack_error; } // Validate operation name name = crm_element_value(op_expression, PCMK_XA_NAME); if (name == NULL) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_OP_EXPRESSION " %s as not " "passing because it has no " PCMK_XA_NAME, id); return pcmk_rc_unpack_error; } // Validate operation interval interval_s = crm_element_value(op_expression, PCMK_META_INTERVAL); if (pcmk_parse_interval_spec(interval_s, &interval_ms) != pcmk_rc_ok) { pcmk__config_err("Treating " PCMK_XE_OP_EXPRESSION " %s as not " "passing because '%s' is not a valid " PCMK_META_INTERVAL, id, interval_s); return pcmk_rc_unpack_error; } // Compare operation name if (!pcmk__str_eq(name, rule_input->op_name, pcmk__str_none)) { crm_trace(PCMK_XE_OP_EXPRESSION " %s is unsatisfied because " "actual name '%s' doesn't match '%s'", id, pcmk__s(rule_input->op_name, ""), name); return pcmk_rc_op_unsatisfied; } // Compare operation interval (unspecified interval matches all) if ((interval_s != NULL) && (interval_ms != rule_input->op_interval_ms)) { crm_trace(PCMK_XE_OP_EXPRESSION " %s is unsatisfied because " "actual interval %s doesn't match %s", id, pcmk__readable_interval(rule_input->op_interval_ms), pcmk__readable_interval(interval_ms)); return pcmk_rc_op_unsatisfied; } crm_trace(PCMK_XE_OP_EXPRESSION " %s is satisfied (name %s, interval %s)", id, name, pcmk__readable_interval(rule_input->op_interval_ms)); return pcmk_rc_ok; } /*! * \internal * \brief Evaluate a rule condition * * \param[in,out] condition XML containing a rule condition (a subrule, or an * expression of any type) * \param[in] rule_input Values used to evaluate rule criteria * \param[out] next_change If not NULL, set to when evaluation will change * * \return Standard Pacemaker return code (\c pcmk_rc_ok if the condition * passes, some other value if it does not) */ int pcmk__evaluate_condition(xmlNode *condition, const pcmk_rule_input_t *rule_input, crm_time_t *next_change) { if ((condition == NULL) || (rule_input == NULL)) { return EINVAL; } switch (pcmk__condition_type(condition)) { case pcmk__condition_rule: return pcmk_evaluate_rule(condition, rule_input, next_change); case pcmk__condition_attribute: case pcmk__condition_location: return pcmk__evaluate_attr_expression(condition, rule_input); case pcmk__condition_datetime: { int rc = pcmk__evaluate_date_expression(condition, rule_input->now, next_change); return (rc == pcmk_rc_within_range)? pcmk_rc_ok : rc; } case pcmk__condition_resource: return pcmk__evaluate_rsc_expression(condition, rule_input); case pcmk__condition_operation: return pcmk__evaluate_op_expression(condition, rule_input); default: // Not possible with schema validation enabled pcmk__config_err("Treating rule condition %s as not passing " "because %s is not a valid condition type", pcmk__s(pcmk__xe_id(condition), "without ID"), (const char *) condition->name); return pcmk_rc_unpack_error; } } /*! * \brief Evaluate a single rule, including all its conditions * * \param[in,out] rule XML containing a rule definition or its id-ref * \param[in] rule_input Values used to evaluate rule criteria * \param[out] next_change If not NULL, set to when evaluation will change * * \return Standard Pacemaker return code (\c pcmk_rc_ok if the rule is * satisfied, some other value if it is not) */ int pcmk_evaluate_rule(xmlNode *rule, const pcmk_rule_input_t *rule_input, crm_time_t *next_change) { bool empty = true; int rc = pcmk_rc_ok; const char *id = NULL; const char *value = NULL; enum pcmk__combine combine = pcmk__combine_unknown; if ((rule == NULL) || (rule_input == NULL)) { return EINVAL; } rule = pcmk__xe_resolve_idref(rule, NULL); if (rule == NULL) { // Not possible with schema validation enabled; message already logged return pcmk_rc_unpack_error; } // Validate XML ID id = pcmk__xe_id(rule); if (pcmk__str_empty(id)) { // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_RULE " without " PCMK_XA_ID " as not passing"); return pcmk_rc_unpack_error; } value = crm_element_value(rule, PCMK_XA_BOOLEAN_OP); combine = pcmk__parse_combine(value); switch (combine) { case pcmk__combine_and: // For "and", rc defaults to success (reset on failure below) break; case pcmk__combine_or: // For "or", rc defaults to failure (reset on success below) rc = pcmk_rc_op_unsatisfied; break; default: // Not possible with schema validation enabled pcmk__config_err("Treating " PCMK_XE_RULE " %s as not passing " "because '%s' is not a valid " PCMK_XA_BOOLEAN_OP, id, value); return pcmk_rc_unpack_error; } // Evaluate each condition for (xmlNode *condition = pcmk__xe_first_child(rule, NULL, NULL, NULL); condition != NULL; condition = pcmk__xe_next(condition)) { empty = false; if (pcmk__evaluate_condition(condition, rule_input, next_change) == pcmk_rc_ok) { if (combine == pcmk__combine_or) { rc = pcmk_rc_ok; // Any pass is final for "or" break; } } else if (combine == pcmk__combine_and) { rc = pcmk_rc_op_unsatisfied; // Any failure is final for "and" break; } } if (empty) { // Not possible with schema validation enabled pcmk__config_warn("Ignoring rule %s because it contains no conditions", id); rc = pcmk_rc_ok; } crm_trace("Rule %s is %ssatisfied", id, ((rc == pcmk_rc_ok)? "" : "not ")); return rc; } /*! * \internal * \brief Evaluate all rules contained within an element * * \param[in,out] xml XML element possibly containing rule subelements * \param[in] rule_input Values used to evaluate rule criteria * \param[out] next_change If not NULL, set to when evaluation will change * * \return Standard Pacemaker return code (pcmk_rc_ok if there are no contained * rules or any contained rule passes, otherwise the result of the last * rule) * \deprecated On code paths leading to this function, the schema allows * multiple top-level rules only in the deprecated lifetime element * of location constraints. The code also allows multiple top-level * rules when unpacking attribute sets, but this is deprecated and * already prevented by schema validation. This function can be * dropped when support for those is dropped. */ int pcmk__evaluate_rules(xmlNode *xml, const pcmk_rule_input_t *rule_input, crm_time_t *next_change) { // If there are no rules, pass by default int rc = pcmk_rc_ok; bool have_rule = false; for (xmlNode *rule = pcmk__xe_first_child(xml, PCMK_XE_RULE, NULL, NULL); rule != NULL; rule = pcmk__xe_next_same(rule)) { if (have_rule) { pcmk__warn_once(pcmk__wo_multiple_rules, "Support for multiple top-level rules is " "deprecated (replace with a single rule containing " "the existing rules with " PCMK_XA_BOOLEAN_OP "set to " PCMK_VALUE_OR " instead)"); } else { have_rule = true; } rc = pcmk_evaluate_rule(rule, rule_input, next_change); if (rc == pcmk_rc_ok) { break; } } return rc; } diff --git a/lib/common/strings.c b/lib/common/strings.c index 730ff4dd70..3c719e95f5 100644 --- a/lib/common/strings.c +++ b/lib/common/strings.c @@ -1,1302 +1,1314 @@ /* * Copyright 2004-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include "crm/common/results.h" #include #include #include #include #include #include #include // DBL_MIN #include #include #include /*! * \internal * \brief Scan a long long integer from a string * * \param[in] text String to scan * \param[out] result If not NULL, where to store scanned value * \param[in] default_value Value to use if text is NULL or invalid * \param[out] end_text If not NULL, where to store pointer to first * non-integer character * * \return Standard Pacemaker return code (\c pcmk_rc_ok on success, - * \c EINVAL on failed string conversion due to invalid input, - * or \c ERANGE if outside long long range) + * \c pcmk_rc_bad_input on failed string conversion due to invalid + * input, or \c ERANGE if outside long long range) * \note Sets \c errno on error */ static int scan_ll(const char *text, long long *result, long long default_value, char **end_text) { long long local_result = default_value; char *local_end_text = NULL; int rc = pcmk_rc_ok; errno = 0; if (text != NULL) { local_result = strtoll(text, &local_end_text, 10); if (errno == ERANGE) { rc = errno; - crm_warn("Integer parsed from '%s' was clipped to %lld", - text, local_result); + crm_debug("Integer parsed from '%s' was clipped to %lld", + text, local_result); - } else if (errno != 0) { - rc = errno; + } else if (local_end_text == text) { + rc = pcmk_rc_bad_input; local_result = default_value; - crm_warn("Could not parse integer from '%s' (using %lld instead): " - "%s", text, default_value, pcmk_rc_str(rc)); + crm_debug("Could not parse integer from '%s' (using %lld instead): " + "No digits found", text, default_value); - } else if (local_end_text == text) { - rc = EINVAL; + } else if (errno != 0) { + rc = errno; local_result = default_value; - crm_warn("Could not parse integer from '%s' (using %lld instead): " - "No digits found", text, default_value); + crm_debug("Could not parse integer from '%s' (using %lld instead): " + "%s", text, default_value, pcmk_rc_str(rc)); } if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) { - crm_warn("Characters left over after parsing '%s': '%s'", - text, local_end_text); + crm_debug("Characters left over after parsing '%s': '%s'", + text, local_end_text); } errno = rc; } if (end_text != NULL) { *end_text = local_end_text; } if (result != NULL) { *result = local_result; } return rc; } /*! * \internal * \brief Scan a long long integer value from a string * * \param[in] text The string to scan (may be NULL) * \param[out] result Where to store result (or NULL to ignore) * \param[in] default_value Value to use if text is NULL or invalid * * \return Standard Pacemaker return code */ int pcmk__scan_ll(const char *text, long long *result, long long default_value) { long long local_result = default_value; int rc = scan_ll(text, &local_result, default_value, NULL); if (result != NULL) { *result = local_result; } return rc; } /*! * \internal * \brief Scan an integer value from a string, constrained to a minimum * * \param[in] text The string to scan (may be NULL) * \param[out] result Where to store result (or NULL to ignore) * \param[in] minimum Value to use as default and minimum * * \return Standard Pacemaker return code * \note If the value is larger than the maximum integer, EOVERFLOW will be * returned and \p result will be set to the maximum integer. */ int pcmk__scan_min_int(const char *text, int *result, int minimum) { int rc; long long result_ll; rc = pcmk__scan_ll(text, &result_ll, (long long) minimum); if (result_ll < (long long) minimum) { crm_warn("Clipped '%s' to minimum acceptable value %d", text, minimum); result_ll = (long long) minimum; } else if (result_ll > INT_MAX) { crm_warn("Clipped '%s' to maximum integer %d", text, INT_MAX); result_ll = (long long) INT_MAX; rc = EOVERFLOW; } if (result != NULL) { *result = (int) result_ll; } return rc; } /*! * \internal * \brief Scan a TCP port number from a string * * \param[in] text The string to scan * \param[out] port Where to store result (or NULL to ignore) * * \return Standard Pacemaker return code * \note \p port will be -1 if \p text is NULL or invalid */ int pcmk__scan_port(const char *text, int *port) { long long port_ll; int rc = pcmk__scan_ll(text, &port_ll, -1LL); - if ((text != NULL) && (rc == pcmk_rc_ok) // wasn't default or invalid + if (rc != pcmk_rc_ok) { + crm_warn("'%s' is not a valid port: %s", text, pcmk_rc_str(rc)); + + } else if ((text != NULL) // wasn't default or invalid && ((port_ll < 0LL) || (port_ll > 65535LL))) { crm_warn("Ignoring port specification '%s' " "not in valid range (0-65535)", text); rc = (port_ll < 0LL)? pcmk_rc_before_range : pcmk_rc_after_range; port_ll = -1LL; } if (port != NULL) { *port = (int) port_ll; } return rc; } /*! * \internal * \brief Scan a double-precision floating-point value from a string * * \param[in] text The string to parse * \param[out] result Parsed value on success, or * \c PCMK__PARSE_DBL_DEFAULT on error * \param[in] default_text Default string to parse if \p text is * \c NULL * \param[out] end_text If not \c NULL, where to store a pointer * to the position immediately after the * value * * \return Standard Pacemaker return code (\c pcmk_rc_ok on success, * \c EINVAL on failed string conversion due to invalid input, * \c EOVERFLOW on arithmetic overflow, \c pcmk_rc_underflow * on arithmetic underflow, or \c errno from \c strtod() on * other parse errors) */ int pcmk__scan_double(const char *text, double *result, const char *default_text, char **end_text) { int rc = pcmk_rc_ok; char *local_end_text = NULL; CRM_ASSERT(result != NULL); *result = PCMK__PARSE_DBL_DEFAULT; text = (text != NULL) ? text : default_text; if (text == NULL) { rc = EINVAL; crm_debug("No text and no default conversion value supplied"); } else { errno = 0; *result = strtod(text, &local_end_text); if (errno == ERANGE) { /* * Overflow: strtod() returns +/- HUGE_VAL and sets errno to * ERANGE * * Underflow: strtod() returns "a value whose magnitude is * no greater than the smallest normalized * positive" double. Whether ERANGE is set is * implementation-defined. */ const char *over_under; if (QB_ABS(*result) > DBL_MIN) { rc = EOVERFLOW; over_under = "over"; } else { rc = pcmk_rc_underflow; over_under = "under"; } crm_debug("Floating-point value parsed from '%s' would %sflow " "(using %g instead)", text, over_under, *result); } else if (errno != 0) { rc = errno; // strtod() set *result = 0 on parse failure *result = PCMK__PARSE_DBL_DEFAULT; crm_debug("Could not parse floating-point value from '%s' (using " "%.1f instead): %s", text, PCMK__PARSE_DBL_DEFAULT, pcmk_rc_str(rc)); } else if (local_end_text == text) { // errno == 0, but nothing was parsed rc = EINVAL; *result = PCMK__PARSE_DBL_DEFAULT; crm_debug("Could not parse floating-point value from '%s' (using " "%.1f instead): No digits found", text, PCMK__PARSE_DBL_DEFAULT); } else if (QB_ABS(*result) <= DBL_MIN) { /* * errno == 0 and text was parsed, but value might have * underflowed. * * ERANGE might not be set for underflow. Check magnitude * of *result, but also make sure the input number is not * actually zero (0 <= DBL_MIN is not underflow). * * This check must come last. A parse failure in strtod() * also sets *result == 0, so a parse failure would match * this test condition prematurely. */ for (const char *p = text; p != local_end_text; p++) { if (strchr("0.eE", *p) == NULL) { rc = pcmk_rc_underflow; crm_debug("Floating-point value parsed from '%s' would " "underflow (using %g instead)", text, *result); break; } } } else { crm_trace("Floating-point value parsed successfully from " "'%s': %g", text, *result); } if ((end_text == NULL) && !pcmk__str_empty(local_end_text)) { crm_debug("Characters left over after parsing '%s': '%s'", text, local_end_text); } } if (end_text != NULL) { *end_text = local_end_text; } return rc; } /*! * \internal * \brief Parse a guint from a string stored in a hash table * * \param[in] table Hash table to search * \param[in] key Hash table key to use to retrieve string * \param[in] default_val What to use if key has no entry in table * \param[out] result If not NULL, where to store parsed integer * * \return Standard Pacemaker return code */ int pcmk__guint_from_hash(GHashTable *table, const char *key, guint default_val, guint *result) { const char *value; long long value_ll; int rc = pcmk_rc_ok; CRM_CHECK((table != NULL) && (key != NULL), return EINVAL); if (result != NULL) { *result = default_val; } value = g_hash_table_lookup(table, key); if (value == NULL) { return pcmk_rc_ok; } rc = pcmk__scan_ll(value, &value_ll, 0LL); if (rc != pcmk_rc_ok) { + crm_warn("Using default (%u) for %s because '%s' is not a " + "valid integer: %s", default_val, key, value, pcmk_rc_str(rc)); return rc; } if ((value_ll < 0) || (value_ll > G_MAXUINT)) { - crm_warn("Could not parse non-negative integer from %s", value); + crm_warn("Using default (%u) for %s because '%s' is not in valid range", + default_val, key, value); return ERANGE; } if (result != NULL) { *result = (guint) value_ll; } return pcmk_rc_ok; } /*! * \brief Parse a time+units string and return milliseconds equivalent * * \param[in] input String with a nonnegative number and optional unit * (optionally with whitespace before and/or after the * number). If missing, the unit defaults to seconds. * * \return Milliseconds corresponding to string expression, or * \c PCMK__PARSE_INT_DEFAULT on error */ long long crm_get_msec(const char *input) { char *units = NULL; // Do not free; will point to part of input long long multiplier = 1000; long long divisor = 1; long long msec = PCMK__PARSE_INT_DEFAULT; + int rc = pcmk_rc_ok; if (input == NULL) { return PCMK__PARSE_INT_DEFAULT; } // Skip initial whitespace while (isspace(*input)) { input++; } - // Reject negative and unparsable inputs - if ((scan_ll(input, &msec, -1, &units) == EINVAL) || (msec < 0)) { + rc = scan_ll(input, &msec, PCMK__PARSE_INT_DEFAULT, &units); + + if ((rc == ERANGE) && (msec > 0)) { + crm_warn("'%s' will be clipped to %lld", input, msec); + + } else if ((rc != pcmk_rc_ok) || (msec < 0)) { + crm_warn("'%s' is not a valid time duration: %s", + input, ((rc == pcmk_rc_ok)? "Negative" : pcmk_rc_str(rc))); return PCMK__PARSE_INT_DEFAULT; } /* If the number is a decimal, scan_ll() reads only the integer part. Skip * any remaining digits or decimal characters. * * @COMPAT Well-formed and malformed decimals are both accepted inputs. For * example, "3.14 ms" and "3.1.4 ms" are treated the same as "3ms" and * parsed successfully. At a compatibility break, decide if this is still * desired. */ while (isdigit(*units) || (*units == '.')) { units++; } // Skip any additional whitespace after the number while (isspace(*units)) { units++; } /* @COMPAT Use exact comparisons. Currently, we match too liberally, and the * second strncasecmp() in each case is redundant. */ if ((*units == '\0') || (strncasecmp(units, "s", 1) == 0) || (strncasecmp(units, "sec", 3) == 0)) { multiplier = 1000; divisor = 1; } else if ((strncasecmp(units, "ms", 2) == 0) || (strncasecmp(units, "msec", 4) == 0)) { multiplier = 1; divisor = 1; } else if ((strncasecmp(units, "us", 2) == 0) || (strncasecmp(units, "usec", 4) == 0)) { multiplier = 1; divisor = 1000; } else if ((strncasecmp(units, "m", 1) == 0) || (strncasecmp(units, "min", 3) == 0)) { multiplier = 60 * 1000; divisor = 1; } else if ((strncasecmp(units, "h", 1) == 0) || (strncasecmp(units, "hr", 2) == 0)) { multiplier = 60 * 60 * 1000; divisor = 1; } else { // Invalid units return PCMK__PARSE_INT_DEFAULT; } // Apply units, capping at LLONG_MAX if (msec > (LLONG_MAX / multiplier)) { return LLONG_MAX; } return (msec * multiplier) / divisor; } /*! * \brief Parse milliseconds from a Pacemaker interval specification * * \param[in] input Pacemaker time interval specification (a bare number * of seconds; a number with a unit, optionally with * whitespace before and/or after the number; or an ISO * 8601 duration) * \param[out] result_ms Where to store milliseconds equivalent of \p input on * success (limited to the range of an unsigned integer), * or 0 if \p input is \c NULL or invalid * * \return Standard Pacemaker return code (specifically, \c pcmk_rc_ok if * \p input is valid or \c NULL, and \c EINVAL otherwise) */ int pcmk_parse_interval_spec(const char *input, guint *result_ms) { long long msec = PCMK__PARSE_INT_DEFAULT; int rc = pcmk_rc_ok; if (input == NULL) { msec = 0; goto done; } if (input[0] == 'P') { crm_time_t *period_s = crm_time_parse_duration(input); if (period_s != NULL) { msec = crm_time_get_seconds(period_s); msec = QB_MIN(msec, G_MAXUINT / 1000) * 1000; crm_time_free(period_s); } } else { msec = crm_get_msec(input); } if (msec == PCMK__PARSE_INT_DEFAULT) { crm_warn("Using 0 instead of invalid interval specification '%s'", input); msec = 0; rc = EINVAL; } done: if (result_ms != NULL) { *result_ms = (msec >= G_MAXUINT)? G_MAXUINT : (guint) msec; } return rc; } gboolean crm_is_true(const char *s) { gboolean ret = FALSE; return (crm_str_to_boolean(s, &ret) < 0)? FALSE : ret; } int crm_str_to_boolean(const char *s, int *ret) { if (s == NULL) { return -1; } if (pcmk__strcase_any_of(s, PCMK_VALUE_TRUE, "on", "yes", "y", "1", NULL)) { if (ret != NULL) { *ret = TRUE; } return 1; } if (pcmk__strcase_any_of(s, PCMK_VALUE_FALSE, PCMK_VALUE_OFF, "no", "n", "0", NULL)) { if (ret != NULL) { *ret = FALSE; } return 1; } return -1; } /*! * \internal * \brief Replace any trailing newlines in a string with \0's * * \param[in,out] str String to trim * * \return \p str */ char * pcmk__trim(char *str) { int len; if (str == NULL) { return str; } for (len = strlen(str) - 1; len >= 0 && str[len] == '\n'; len--) { str[len] = '\0'; } return str; } /*! * \brief Check whether a string starts with a certain sequence * * \param[in] str String to check * \param[in] prefix Sequence to match against beginning of \p str * * \return \c true if \p str begins with match, \c false otherwise * \note This is equivalent to !strncmp(s, prefix, strlen(prefix)) * but is likely less efficient when prefix is a string literal * if the compiler optimizes away the strlen() at compile time, * and more efficient otherwise. */ bool pcmk__starts_with(const char *str, const char *prefix) { const char *s = str; const char *p = prefix; if (!s || !p) { return false; } while (*s && *p) { if (*s++ != *p++) { return false; } } return (*p == 0); } static inline bool ends_with(const char *s, const char *match, bool as_extension) { if (pcmk__str_empty(match)) { return true; } else if (s == NULL) { return false; } else { size_t slen, mlen; /* Besides as_extension, we could also check !strchr(&match[1], match[0]) but that would be inefficient. */ if (as_extension) { s = strrchr(s, match[0]); return (s == NULL)? false : !strcmp(s, match); } mlen = strlen(match); slen = strlen(s); return ((slen >= mlen) && !strcmp(s + slen - mlen, match)); } } /*! * \internal * \brief Check whether a string ends with a certain sequence * * \param[in] s String to check * \param[in] match Sequence to match against end of \p s * * \return \c true if \p s ends case-sensitively with match, \c false otherwise * \note pcmk__ends_with_ext() can be used if the first character of match * does not recur in match. */ bool pcmk__ends_with(const char *s, const char *match) { return ends_with(s, match, false); } /*! * \internal * \brief Check whether a string ends with a certain "extension" * * \param[in] s String to check * \param[in] match Extension to match against end of \p s, that is, * its first character must not occur anywhere * in the rest of that very sequence (example: file * extension where the last dot is its delimiter, * e.g., ".html"); incorrect results may be * returned otherwise. * * \return \c true if \p s ends (verbatim, i.e., case sensitively) * with "extension" designated as \p match (including empty * string), \c false otherwise * * \note Main incentive to prefer this function over \c pcmk__ends_with() * where possible is the efficiency (at the cost of added * restriction on \p match as stated; the complexity class * remains the same, though: BigO(M+N) vs. BigO(M+2N)). */ bool pcmk__ends_with_ext(const char *s, const char *match) { return ends_with(s, match, true); } /*! * \internal * \brief Create a hash of a string suitable for use with GHashTable * * \param[in] v String to hash * * \return A hash of \p v compatible with g_str_hash() before glib 2.28 * \note glib changed their hash implementation: * * https://gitlab.gnome.org/GNOME/glib/commit/354d655ba8a54b754cb5a3efb42767327775696c * * Note that the new g_str_hash is presumably a *better* hash (it's actually * a correct implementation of DJB's hash), but we need to preserve existing * behaviour, because the hash key ultimately determines the "sort" order * when iterating through GHashTables, which affects allocation of scores to * clone instances when iterating through allowed nodes. It (somehow) also * appears to have some minor impact on the ordering of a few pseudo_event IDs * in the transition graph. */ static guint pcmk__str_hash(gconstpointer v) { const signed char *p; guint32 h = 0; for (p = v; *p != '\0'; p++) h = (h << 5) - h + *p; return h; } /*! * \internal * \brief Create a hash table with case-sensitive strings as keys * * \param[in] key_destroy_func Function to free a key * \param[in] value_destroy_func Function to free a value * * \return Newly allocated hash table * \note It is the caller's responsibility to free the result, using * g_hash_table_destroy(). */ GHashTable * pcmk__strkey_table(GDestroyNotify key_destroy_func, GDestroyNotify value_destroy_func) { return g_hash_table_new_full(pcmk__str_hash, g_str_equal, key_destroy_func, value_destroy_func); } /*! * \internal * \brief Insert string copies into a hash table as key and value * * \param[in,out] table Hash table to add to * \param[in] name String to add a copy of as key * \param[in] value String to add a copy of as value * * \note This asserts on invalid arguments or memory allocation failure. */ void pcmk__insert_dup(GHashTable *table, const char *name, const char *value) { CRM_ASSERT((table != NULL) && (name != NULL)); g_hash_table_insert(table, pcmk__str_copy(name), pcmk__str_copy(value)); } /* used with hash tables where case does not matter */ static gboolean pcmk__strcase_equal(gconstpointer a, gconstpointer b) { return pcmk__str_eq((const char *)a, (const char *)b, pcmk__str_casei); } static guint pcmk__strcase_hash(gconstpointer v) { const signed char *p; guint32 h = 0; for (p = v; *p != '\0'; p++) h = (h << 5) - h + g_ascii_tolower(*p); return h; } /*! * \internal * \brief Create a hash table with case-insensitive strings as keys * * \param[in] key_destroy_func Function to free a key * \param[in] value_destroy_func Function to free a value * * \return Newly allocated hash table * \note It is the caller's responsibility to free the result, using * g_hash_table_destroy(). */ GHashTable * pcmk__strikey_table(GDestroyNotify key_destroy_func, GDestroyNotify value_destroy_func) { return g_hash_table_new_full(pcmk__strcase_hash, pcmk__strcase_equal, key_destroy_func, value_destroy_func); } static void copy_str_table_entry(gpointer key, gpointer value, gpointer user_data) { if (key && value && user_data) { pcmk__insert_dup((GHashTable *) user_data, (const char *) key, (const char *) value); } } /*! * \internal * \brief Copy a hash table that uses dynamically allocated strings * * \param[in,out] old_table Hash table to duplicate * * \return New hash table with copies of everything in \p old_table * \note This assumes the hash table uses dynamically allocated strings -- that * is, both the key and value free functions are free(). */ GHashTable * pcmk__str_table_dup(GHashTable *old_table) { GHashTable *new_table = NULL; if (old_table) { new_table = pcmk__strkey_table(free, free); g_hash_table_foreach(old_table, copy_str_table_entry, new_table); } return new_table; } /*! * \internal * \brief Add a word to a string list of words * * \param[in,out] list Pointer to current string list (may not be \p NULL) * \param[in] init_size \p list will be initialized to at least this size, * if it needs initialization (if 0, use GLib's default * initial string size) * \param[in] word String to add to \p list (\p list will be * unchanged if this is \p NULL or the empty string) * \param[in] separator String to separate words in \p list * (a space will be used if this is NULL) * * \note \p word may contain \p separator, though that would be a bad idea if * the string needs to be parsed later. */ void pcmk__add_separated_word(GString **list, size_t init_size, const char *word, const char *separator) { CRM_ASSERT(list != NULL); if (pcmk__str_empty(word)) { return; } if (*list == NULL) { if (init_size > 0) { *list = g_string_sized_new(init_size); } else { *list = g_string_new(NULL); } } if ((*list)->len == 0) { // Don't add a separator before the first word in the list separator = ""; } else if (separator == NULL) { // Default to space-separated separator = " "; } g_string_append(*list, separator); g_string_append(*list, word); } /*! * \internal * \brief Compress data * * \param[in] data Data to compress * \param[in] length Number of characters of data to compress * \param[in] max Maximum size of compressed data (or 0 to estimate) * \param[out] result Where to store newly allocated compressed result * \param[out] result_len Where to store actual compressed length of result * * \return Standard Pacemaker return code */ int pcmk__compress(const char *data, unsigned int length, unsigned int max, char **result, unsigned int *result_len) { int rc; char *compressed = NULL; char *uncompressed = strdup(data); #ifdef CLOCK_MONOTONIC struct timespec after_t; struct timespec before_t; #endif if (max == 0) { max = (length * 1.01) + 601; // Size guaranteed to hold result } #ifdef CLOCK_MONOTONIC clock_gettime(CLOCK_MONOTONIC, &before_t); #endif compressed = pcmk__assert_alloc((size_t) max, sizeof(char)); *result_len = max; rc = BZ2_bzBuffToBuffCompress(compressed, result_len, uncompressed, length, CRM_BZ2_BLOCKS, 0, CRM_BZ2_WORK); rc = pcmk__bzlib2rc(rc); free(uncompressed); if (rc != pcmk_rc_ok) { crm_err("Compression of %d bytes failed: %s " QB_XS " rc=%d", length, pcmk_rc_str(rc), rc); free(compressed); return rc; } #ifdef CLOCK_MONOTONIC clock_gettime(CLOCK_MONOTONIC, &after_t); crm_trace("Compressed %d bytes into %d (ratio %d:1) in %.0fms", length, *result_len, length / (*result_len), (after_t.tv_sec - before_t.tv_sec) * 1000 + (after_t.tv_nsec - before_t.tv_nsec) / 1e6); #else crm_trace("Compressed %d bytes into %d (ratio %d:1)", length, *result_len, length / (*result_len)); #endif *result = compressed; return pcmk_rc_ok; } char * crm_strdup_printf(char const *format, ...) { va_list ap; int len = 0; char *string = NULL; va_start(ap, format); len = vasprintf (&string, format, ap); CRM_ASSERT(len > 0); va_end(ap); return string; } int pcmk__parse_ll_range(const char *srcstring, long long *start, long long *end) { char *remainder = NULL; int rc = pcmk_rc_ok; CRM_ASSERT(start != NULL && end != NULL); *start = PCMK__PARSE_INT_DEFAULT; *end = PCMK__PARSE_INT_DEFAULT; crm_trace("Attempting to decode: [%s]", srcstring); if (pcmk__str_eq(srcstring, "", pcmk__str_null_matches)) { return ENODATA; } else if (pcmk__str_eq(srcstring, "-", pcmk__str_none)) { return pcmk_rc_bad_input; } /* String starts with a dash, so this is either a range with * no beginning or garbage. * */ if (*srcstring == '-') { int rc = scan_ll(srcstring+1, end, PCMK__PARSE_INT_DEFAULT, &remainder); - if (rc != pcmk_rc_ok || *remainder != '\0') { - return pcmk_rc_bad_input; - } else { - return pcmk_rc_ok; + if ((rc == pcmk_rc_ok) && (*remainder != '\0')) { + rc = pcmk_rc_bad_input; } + return rc; } rc = scan_ll(srcstring, start, PCMK__PARSE_INT_DEFAULT, &remainder); if (rc != pcmk_rc_ok) { return rc; } if (*remainder && *remainder == '-') { if (*(remainder+1)) { char *more_remainder = NULL; int rc = scan_ll(remainder+1, end, PCMK__PARSE_INT_DEFAULT, &more_remainder); if (rc != pcmk_rc_ok) { return rc; } else if (*more_remainder != '\0') { return pcmk_rc_bad_input; } } } else if (*remainder && *remainder != '-') { *start = PCMK__PARSE_INT_DEFAULT; return pcmk_rc_bad_input; } else { /* The input string contained only one number. Set start and end * to the same value and return pcmk_rc_ok. This gives the caller * a way to tell this condition apart from a range with no end. */ *end = *start; } return pcmk_rc_ok; } /*! * \internal * \brief Find a string in a list of strings * * \note This function takes the same flags and has the same behavior as * pcmk__str_eq(). * * \note No matter what input string or flags are provided, an empty * list will always return FALSE. * * \param[in] s String to search for * \param[in] lst List to search * \param[in] flags A bitfield of pcmk__str_flags to modify operation * * \return \c TRUE if \p s is in \p lst, or \c FALSE otherwise */ gboolean pcmk__str_in_list(const gchar *s, const GList *lst, uint32_t flags) { for (const GList *ele = lst; ele != NULL; ele = ele->next) { if (pcmk__str_eq(s, ele->data, flags)) { return TRUE; } } return FALSE; } static bool str_any_of(const char *s, va_list args, uint32_t flags) { if (s == NULL) { return pcmk_is_set(flags, pcmk__str_null_matches); } while (1) { const char *ele = va_arg(args, const char *); if (ele == NULL) { break; } else if (pcmk__str_eq(s, ele, flags)) { return true; } } return false; } /*! * \internal * \brief Is a string a member of a list of strings? * * \param[in] s String to search for in \p ... * \param[in] ... Strings to compare \p s against. The final string * must be NULL. * * \note The comparison is done case-insensitively. The function name is * meant to be reminiscent of strcasecmp. * * \return \c true if \p s is in \p ..., or \c false otherwise */ bool pcmk__strcase_any_of(const char *s, ...) { va_list ap; bool rc; va_start(ap, s); rc = str_any_of(s, ap, pcmk__str_casei); va_end(ap); return rc; } /*! * \internal * \brief Is a string a member of a list of strings? * * \param[in] s String to search for in \p ... * \param[in] ... Strings to compare \p s against. The final string * must be NULL. * * \note The comparison is done taking case into account. * * \return \c true if \p s is in \p ..., or \c false otherwise */ bool pcmk__str_any_of(const char *s, ...) { va_list ap; bool rc; va_start(ap, s); rc = str_any_of(s, ap, pcmk__str_none); va_end(ap); return rc; } /*! * \internal * \brief Sort strings, with numeric portions sorted numerically * * Sort two strings case-insensitively like strcasecmp(), but with any numeric * portions of the string sorted numerically. This is particularly useful for * node names (for example, "node10" will sort higher than "node9" but lower * than "remotenode9"). * * \param[in] s1 First string to compare (must not be NULL) * \param[in] s2 Second string to compare (must not be NULL) * * \retval -1 \p s1 comes before \p s2 * \retval 0 \p s1 and \p s2 are equal * \retval 1 \p s1 comes after \p s2 */ int pcmk__numeric_strcasecmp(const char *s1, const char *s2) { CRM_ASSERT((s1 != NULL) && (s2 != NULL)); while (*s1 && *s2) { if (isdigit(*s1) && isdigit(*s2)) { // If node names contain a number, sort numerically char *end1 = NULL; char *end2 = NULL; long num1 = strtol(s1, &end1, 10); long num2 = strtol(s2, &end2, 10); // allow ordering e.g. 007 > 7 size_t len1 = end1 - s1; size_t len2 = end2 - s2; if (num1 < num2) { return -1; } else if (num1 > num2) { return 1; } else if (len1 < len2) { return -1; } else if (len1 > len2) { return 1; } s1 = end1; s2 = end2; } else { // Compare non-digits case-insensitively int lower1 = tolower(*s1); int lower2 = tolower(*s2); if (lower1 < lower2) { return -1; } else if (lower1 > lower2) { return 1; } ++s1; ++s2; } } if (!*s1 && *s2) { return -1; } else if (*s1 && !*s2) { return 1; } return 0; } /*! * \internal * \brief Sort strings. * * This is your one-stop function for string comparison. By default, this * function works like \p g_strcmp0. That is, like \p strcmp but a \p NULL * string sorts before a non-NULL string. * * The \p pcmk__str_none flag produces the default behavior. Behavior can be * changed with various flags: * * - \p pcmk__str_regex - The second string is a regular expression that the * first string will be matched against. * - \p pcmk__str_casei - By default, comparisons are done taking case into * account. This flag makes comparisons case- * insensitive. This can be combined with * \p pcmk__str_regex. * - \p pcmk__str_null_matches - If one string is \p NULL and the other is not, * still return \p 0. * - \p pcmk__str_star_matches - If one string is \p "*" and the other is not, * still return \p 0. * * \param[in] s1 First string to compare * \param[in] s2 Second string to compare, or a regular expression to * match if \p pcmk__str_regex is set * \param[in] flags A bitfield of \p pcmk__str_flags to modify operation * * \retval negative \p s1 is \p NULL or comes before \p s2 * \retval 0 \p s1 and \p s2 are equal, or \p s1 is found in \p s2 if * \c pcmk__str_regex is set * \retval positive \p s2 is \p NULL or \p s1 comes after \p s2, or \p s2 * is an invalid regular expression, or \p s1 was not found * in \p s2 if \p pcmk__str_regex is set. */ int pcmk__strcmp(const char *s1, const char *s2, uint32_t flags) { /* If this flag is set, the second string is a regex. */ if (pcmk_is_set(flags, pcmk__str_regex)) { regex_t r_patt; int reg_flags = REG_EXTENDED | REG_NOSUB; int regcomp_rc = 0; int rc = 0; if (s1 == NULL || s2 == NULL) { return 1; } if (pcmk_is_set(flags, pcmk__str_casei)) { reg_flags |= REG_ICASE; } regcomp_rc = regcomp(&r_patt, s2, reg_flags); if (regcomp_rc != 0) { rc = 1; crm_err("Bad regex '%s' for update: %s", s2, strerror(regcomp_rc)); } else { rc = regexec(&r_patt, s1, 0, NULL, 0); regfree(&r_patt); if (rc != 0) { rc = 1; } } return rc; } /* If the strings are the same pointer, return 0 immediately. */ if (s1 == s2) { return 0; } /* If this flag is set, return 0 if either (or both) of the input strings * are NULL. If neither one is NULL, we need to continue and compare * them normally. */ if (pcmk_is_set(flags, pcmk__str_null_matches)) { if (s1 == NULL || s2 == NULL) { return 0; } } /* Handle the cases where one is NULL and the str_null_matches flag is not set. * A NULL string always sorts to the beginning. */ if (s1 == NULL) { return -1; } else if (s2 == NULL) { return 1; } /* If this flag is set, return 0 if either (or both) of the input strings * are "*". If neither one is, we need to continue and compare them * normally. */ if (pcmk_is_set(flags, pcmk__str_star_matches)) { if (strcmp(s1, "*") == 0 || strcmp(s2, "*") == 0) { return 0; } } if (pcmk_is_set(flags, pcmk__str_casei)) { return strcasecmp(s1, s2); } else { return strcmp(s1, s2); } } /*! * \internal * \brief Copy a string, asserting on failure * * \param[in] file File where \p function is located * \param[in] function Calling function * \param[in] line Line within \p file * \param[in] str String to copy (can be \c NULL) * * \return Newly allocated copy of \p str, or \c NULL if \p str is \c NULL * * \note The caller is responsible for freeing the return value using \c free(). */ char * pcmk__str_copy_as(const char *file, const char *function, uint32_t line, const char *str) { if (str != NULL) { char *result = strdup(str); if (result == NULL) { crm_abort(file, function, line, "Out of memory", FALSE, TRUE); crm_exit(CRM_EX_OSERR); } return result; } return NULL; } /*! * \internal * \brief Update a dynamically allocated string with a new value * * Given a dynamically allocated string and a new value for it, if the string * is different from the new value, free the string and replace it with either a * newly allocated duplicate of the value or NULL as appropriate. * * \param[in,out] str Pointer to dynamically allocated string * \param[in] value New value to duplicate (or NULL) * * \note The caller remains responsibile for freeing \p *str. */ void pcmk__str_update(char **str, const char *value) { if ((str != NULL) && !pcmk__str_eq(*str, value, pcmk__str_none)) { free(*str); *str = pcmk__str_copy(value); } } /*! * \internal * \brief Append a list of strings to a destination \p GString * * \param[in,out] buffer Where to append the strings (must not be \p NULL) * \param[in] ... A NULL-terminated list of strings * * \note This tends to be more efficient than a single call to * \p g_string_append_printf(). */ void pcmk__g_strcat(GString *buffer, ...) { va_list ap; CRM_ASSERT(buffer != NULL); va_start(ap, buffer); while (true) { const char *ele = va_arg(ap, const char *); if (ele == NULL) { break; } g_string_append(buffer, ele); } va_end(ap); } diff --git a/lib/common/tests/strings/pcmk__guint_from_hash_test.c b/lib/common/tests/strings/pcmk__guint_from_hash_test.c index 225c5b36c5..5a3dda1ddb 100644 --- a/lib/common/tests/strings/pcmk__guint_from_hash_test.c +++ b/lib/common/tests/strings/pcmk__guint_from_hash_test.c @@ -1,80 +1,81 @@ /* - * Copyright 2022 the Pacemaker project contributors + * Copyright 2022-2024 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 #include static void null_args(void **state) { GHashTable *tbl = pcmk__strkey_table(free, free); guint result; assert_int_equal(pcmk__guint_from_hash(NULL, "abc", 123, &result), EINVAL); assert_int_equal(pcmk__guint_from_hash(tbl, NULL, 123, &result), EINVAL); g_hash_table_destroy(tbl); } static void missing_key(void **state) { GHashTable *tbl = pcmk__strkey_table(free, free); guint result; assert_int_equal(pcmk__guint_from_hash(tbl, "abc", 123, &result), pcmk_rc_ok); assert_int_equal(result, 123); g_hash_table_destroy(tbl); } static void standard_usage(void **state) { GHashTable *tbl = pcmk__strkey_table(free, free); guint result; g_hash_table_insert(tbl, strdup("abc"), strdup("123")); assert_int_equal(pcmk__guint_from_hash(tbl, "abc", 456, &result), pcmk_rc_ok); assert_int_equal(result, 123); g_hash_table_destroy(tbl); } static void conversion_errors(void **state) { GHashTable *tbl = pcmk__strkey_table(free, free); guint result; g_hash_table_insert(tbl, strdup("negative"), strdup("-3")); g_hash_table_insert(tbl, strdup("toobig"), strdup("20000000000000000")); g_hash_table_insert(tbl, strdup("baddata"), strdup("asdf")); assert_int_equal(pcmk__guint_from_hash(tbl, "negative", 456, &result), ERANGE); assert_int_equal(result, 456); assert_int_equal(pcmk__guint_from_hash(tbl, "toobig", 456, &result), ERANGE); assert_int_equal(result, 456); - assert_int_equal(pcmk__guint_from_hash(tbl, "baddata", 456, &result), EINVAL); + assert_int_equal(pcmk__guint_from_hash(tbl, "baddata", 456, &result), + pcmk_rc_bad_input); assert_int_equal(result, 456); g_hash_table_destroy(tbl); } PCMK__UNIT_TEST(NULL, NULL, cmocka_unit_test(null_args), cmocka_unit_test(missing_key), cmocka_unit_test(standard_usage), cmocka_unit_test(conversion_errors)) diff --git a/lib/common/tests/strings/pcmk__scan_ll_test.c b/lib/common/tests/strings/pcmk__scan_ll_test.c index a3671b13e5..e5f284d676 100644 --- a/lib/common/tests/strings/pcmk__scan_ll_test.c +++ b/lib/common/tests/strings/pcmk__scan_ll_test.c @@ -1,83 +1,83 @@ /* * Copyright 2023-2024 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 #include static void empty_input_string(void **state) { long long result; assert_int_equal(pcmk__scan_ll(NULL, &result, 47), pcmk_rc_ok); assert_int_equal(result, 47); } static void bad_input_string(void **state) { long long result; - assert_int_equal(pcmk__scan_ll("asdf", &result, 47), EINVAL); + assert_int_equal(pcmk__scan_ll("asdf", &result, 47), pcmk_rc_bad_input); assert_int_equal(result, 47); - assert_int_equal(pcmk__scan_ll("as12", &result, 47), EINVAL); + assert_int_equal(pcmk__scan_ll("as12", &result, 47), pcmk_rc_bad_input); assert_int_equal(result, 47); } static void trailing_chars(void **state) { long long result; assert_int_equal(pcmk__scan_ll("12as", &result, 47), pcmk_rc_ok); assert_int_equal(result, 12); } static void no_result_variable(void **state) { assert_int_equal(pcmk__scan_ll("1234", NULL, 47), pcmk_rc_ok); - assert_int_equal(pcmk__scan_ll("asdf", NULL, 47), EINVAL); + assert_int_equal(pcmk__scan_ll("asdf", NULL, 47), pcmk_rc_bad_input); } static void out_of_range(void **state) { long long result = 0LL; char *very_long = crm_strdup_printf(" %lld0", LLONG_MAX); assert_int_equal(pcmk__scan_ll(very_long, &result, 47), ERANGE); assert_true(result == LLONG_MAX); very_long[0] = '-'; assert_int_equal(pcmk__scan_ll(very_long, &result, 47), ERANGE); assert_true(result == LLONG_MIN); free(very_long); } static void typical_case(void **state) { long long result; assert_int_equal(pcmk__scan_ll("1234", &result, 47), pcmk_rc_ok); assert_int_equal(result, 1234); } PCMK__UNIT_TEST(NULL, NULL, cmocka_unit_test(empty_input_string), cmocka_unit_test(bad_input_string), cmocka_unit_test(trailing_chars), cmocka_unit_test(no_result_variable), cmocka_unit_test(out_of_range), cmocka_unit_test(typical_case)) diff --git a/lib/common/tests/strings/pcmk__scan_min_int_test.c b/lib/common/tests/strings/pcmk__scan_min_int_test.c index 90c3e87eb0..5edc48f7e1 100644 --- a/lib/common/tests/strings/pcmk__scan_min_int_test.c +++ b/lib/common/tests/strings/pcmk__scan_min_int_test.c @@ -1,60 +1,60 @@ /* - * Copyright 2022 the Pacemaker project contributors + * Copyright 2022-2024 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 static void empty_input_string(void **state) { int result; - assert_int_equal(pcmk__scan_min_int("", &result, 1), EINVAL); + assert_int_equal(pcmk__scan_min_int("", &result, 1), pcmk_rc_bad_input); assert_int_equal(result, 1); assert_int_equal(pcmk__scan_min_int(NULL, &result, 1), pcmk_rc_ok); assert_int_equal(result, 1); } static void input_below_minimum(void **state) { int result; assert_int_equal(pcmk__scan_min_int("100", &result, 1024), pcmk_rc_ok); assert_int_equal(result, 1024); } static void input_above_maximum(void **state) { int result; assert_int_equal(pcmk__scan_min_int("20000000000000000", &result, 100), EOVERFLOW); assert_int_equal(result, INT_MAX); } static void input_just_right(void **state) { int result; assert_int_equal(pcmk__scan_min_int("1024", &result, 1024), pcmk_rc_ok); assert_int_equal(result, 1024); assert_int_equal(pcmk__scan_min_int("2048", &result, 1024), pcmk_rc_ok); assert_int_equal(result, 2048); } PCMK__UNIT_TEST(NULL, NULL, cmocka_unit_test(empty_input_string), cmocka_unit_test(input_below_minimum), cmocka_unit_test(input_above_maximum), cmocka_unit_test(input_just_right)) diff --git a/lib/common/tests/strings/pcmk__scan_port_test.c b/lib/common/tests/strings/pcmk__scan_port_test.c index cf927e4f8c..68610a1418 100644 --- a/lib/common/tests/strings/pcmk__scan_port_test.c +++ b/lib/common/tests/strings/pcmk__scan_port_test.c @@ -1,59 +1,59 @@ /* * Copyright 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 static void empty_input_string(void **state) { int result; - assert_int_equal(pcmk__scan_port("", &result), EINVAL); + assert_int_equal(pcmk__scan_port("", &result), pcmk_rc_bad_input); assert_int_equal(result, -1); } static void bad_input_string(void **state) { int result; - assert_int_equal(pcmk__scan_port("abc", &result), EINVAL); + assert_int_equal(pcmk__scan_port("abc", &result), pcmk_rc_bad_input); assert_int_equal(result, -1); } static void out_of_range(void **state) { int result; assert_int_equal(pcmk__scan_port("-1", &result), pcmk_rc_before_range); assert_int_equal(result, -1); assert_int_equal(pcmk__scan_port("65536", &result), pcmk_rc_after_range); assert_int_equal(result, -1); } static void typical_case(void **state) { int result; assert_int_equal(pcmk__scan_port("0", &result), pcmk_rc_ok); assert_int_equal(result, 0); assert_int_equal(pcmk__scan_port("80", &result), pcmk_rc_ok); assert_int_equal(result, 80); } PCMK__UNIT_TEST(NULL, NULL, cmocka_unit_test(empty_input_string), cmocka_unit_test(bad_input_string), cmocka_unit_test(out_of_range), cmocka_unit_test(typical_case)) diff --git a/lib/pacemaker/pcmk_graph_producer.c b/lib/pacemaker/pcmk_graph_producer.c index 371048f1b2..285735c576 100644 --- a/lib/pacemaker/pcmk_graph_producer.c +++ b/lib/pacemaker/pcmk_graph_producer.c @@ -1,1111 +1,1116 @@ /* * Copyright 2004-2024 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 #include #include #include #include #include #include "libpacemaker_private.h" // Convenience macros for logging action properties #define action_type_str(flags) \ (pcmk_is_set((flags), pcmk__action_pseudo)? "pseudo-action" : "action") #define action_optional_str(flags) \ (pcmk_is_set((flags), pcmk__action_optional)? "optional" : "required") #define action_runnable_str(flags) \ (pcmk_is_set((flags), pcmk__action_runnable)? "runnable" : "unrunnable") #define action_node_str(a) \ (((a)->node == NULL)? "no node" : (a)->node->priv->name) /*! * \internal * \brief Add an XML node tag for a specified ID * * \param[in] id Node UUID to add * \param[in,out] xml Parent XML tag to add to */ static xmlNode* add_node_to_xml_by_id(const char *id, xmlNode *xml) { xmlNode *node_xml; node_xml = pcmk__xe_create(xml, PCMK_XE_NODE); crm_xml_add(node_xml, PCMK_XA_ID, id); return node_xml; } /*! * \internal * \brief Add an XML node tag for a specified node * * \param[in] node Node to add * \param[in,out] xml XML to add node to */ static void add_node_to_xml(const pcmk_node_t *node, void *xml) { add_node_to_xml_by_id(node->priv->id, (xmlNode *) xml); } /*! * \internal * \brief Count (optionally add to XML) nodes needing maintenance state update * * \param[in,out] xml Parent XML tag to add to, if any * \param[in] scheduler Scheduler data * * \return Count of nodes added * \note Only Pacemaker Remote nodes are considered currently */ static int add_maintenance_nodes(xmlNode *xml, const pcmk_scheduler_t *scheduler) { xmlNode *maintenance = NULL; int count = 0; if (xml != NULL) { maintenance = pcmk__xe_create(xml, PCMK__XE_MAINTENANCE); } for (const GList *iter = scheduler->nodes; iter != NULL; iter = iter->next) { const pcmk_node_t *node = iter->data; if (!pcmk__is_pacemaker_remote_node(node)) { continue; } if ((node->details->maintenance && !pcmk_is_set(node->priv->flags, pcmk__node_remote_maint)) || (!node->details->maintenance && pcmk_is_set(node->priv->flags, pcmk__node_remote_maint))) { if (maintenance != NULL) { crm_xml_add(add_node_to_xml_by_id(node->priv->id, maintenance), PCMK__XA_NODE_IN_MAINTENANCE, (node->details->maintenance? "1" : "0")); } count++; } } crm_trace("%s %d nodes in need of maintenance mode update in state", ((maintenance == NULL)? "Counted" : "Added"), count); return count; } /*! * \internal * \brief Add pseudo action with nodes needing maintenance state update * * \param[in,out] scheduler Scheduler data */ static void add_maintenance_update(pcmk_scheduler_t *scheduler) { pcmk_action_t *action = NULL; if (add_maintenance_nodes(NULL, scheduler) != 0) { action = get_pseudo_op(PCMK_ACTION_MAINTENANCE_NODES, scheduler); pcmk__set_action_flags(action, pcmk__action_always_in_graph); } } /*! * \internal * \brief Add XML with nodes that an action is expected to bring down * * If a specified action is expected to bring any nodes down, add an XML block * with their UUIDs. When a node is lost, this allows the controller to * determine whether it was expected. * * \param[in,out] xml Parent XML tag to add to * \param[in] action Action to check for downed nodes */ static void add_downed_nodes(xmlNode *xml, const pcmk_action_t *action) { CRM_CHECK((xml != NULL) && (action != NULL) && (action->node != NULL), return); if (pcmk__str_eq(action->task, PCMK_ACTION_DO_SHUTDOWN, pcmk__str_none)) { /* Shutdown makes the action's node down */ xmlNode *downed = pcmk__xe_create(xml, PCMK__XE_DOWNED); add_node_to_xml_by_id(action->node->priv->id, downed); } else if (pcmk__str_eq(action->task, PCMK_ACTION_STONITH, pcmk__str_none)) { /* Fencing makes the action's node and any hosted guest nodes down */ const char *fence = g_hash_table_lookup(action->meta, PCMK__META_STONITH_ACTION); if (pcmk__is_fencing_action(fence)) { xmlNode *downed = pcmk__xe_create(xml, PCMK__XE_DOWNED); add_node_to_xml_by_id(action->node->priv->id, downed); pe_foreach_guest_node(action->node->priv->scheduler, action->node, add_node_to_xml, downed); } } else if ((action->rsc != NULL) && pcmk_is_set(action->rsc->flags, pcmk__rsc_is_remote_connection) && pcmk__str_eq(action->task, PCMK_ACTION_STOP, pcmk__str_none)) { /* Stopping a remote connection resource makes connected node down, * unless it's part of a migration */ GList *iter; pcmk_action_t *input; bool migrating = false; for (iter = action->actions_before; iter != NULL; iter = iter->next) { input = ((pcmk__related_action_t *) iter->data)->action; if ((input->rsc != NULL) && pcmk__str_eq(action->rsc->id, input->rsc->id, pcmk__str_none) && pcmk__str_eq(input->task, PCMK_ACTION_MIGRATE_FROM, pcmk__str_none)) { migrating = true; break; } } if (!migrating) { xmlNode *downed = pcmk__xe_create(xml, PCMK__XE_DOWNED); add_node_to_xml_by_id(action->rsc->id, downed); } } } /*! * \internal * \brief Create a transition graph operation key for a clone action * * \param[in] action Clone action * \param[in] interval_ms Action interval in milliseconds * * \return Newly allocated string with transition graph operation key */ static char * clone_op_key(const pcmk_action_t *action, guint interval_ms) { if (pcmk__str_eq(action->task, PCMK_ACTION_NOTIFY, pcmk__str_none)) { const char *n_type = g_hash_table_lookup(action->meta, "notify_type"); const char *n_task = g_hash_table_lookup(action->meta, "notify_operation"); return pcmk__notify_key(action->rsc->priv->history_id, n_type, n_task); } return pcmk__op_key(action->rsc->priv->history_id, pcmk__s(action->cancel_task, action->task), interval_ms); } /*! * \internal * \brief Add node details to transition graph action XML * * \param[in] action Scheduled action * \param[in,out] xml Transition graph action XML for \p action */ static void add_node_details(const pcmk_action_t *action, xmlNode *xml) { pcmk_node_t *router_node = pcmk__connection_host_for_action(action); crm_xml_add(xml, PCMK__META_ON_NODE, action->node->priv->name); crm_xml_add(xml, PCMK__META_ON_NODE_UUID, action->node->priv->id); if (router_node != NULL) { crm_xml_add(xml, PCMK__XA_ROUTER_NODE, router_node->priv->name); } } /*! * \internal * \brief Add resource details to transition graph action XML * * \param[in] action Scheduled action * \param[in,out] action_xml Transition graph action XML for \p action */ static void add_resource_details(const pcmk_action_t *action, xmlNode *action_xml) { xmlNode *rsc_xml = NULL; const char *attr_list[] = { PCMK_XA_CLASS, PCMK_XA_PROVIDER, PCMK_XA_TYPE, }; /* If a resource is locked to a node via PCMK_OPT_SHUTDOWN_LOCK, mark its * actions so the controller can preserve the lock when the action * completes. */ if (pcmk__action_locks_rsc_to_node(action)) { crm_xml_add_ll(action_xml, PCMK_OPT_SHUTDOWN_LOCK, (long long) action->rsc->priv->lock_time); } // List affected resource rsc_xml = pcmk__xe_create(action_xml, (const char *) action->rsc->priv->xml->name); if (pcmk_is_set(action->rsc->flags, pcmk__rsc_removed) && (action->rsc->priv->history_id != NULL)) { /* Use the numbered instance name here, because if there is more * than one instance on a node, we need to make sure the command * goes to the right one. * * This is important even for anonymous clones, because the clone's * unique meta-attribute might have just been toggled from on to * off. */ crm_debug("Using orphan clone name %s instead of history ID %s", action->rsc->id, action->rsc->priv->history_id); crm_xml_add(rsc_xml, PCMK_XA_ID, action->rsc->priv->history_id); crm_xml_add(rsc_xml, PCMK__XA_LONG_ID, action->rsc->id); } else if (!pcmk_is_set(action->rsc->flags, pcmk__rsc_unique)) { const char *xml_id = pcmk__xe_id(action->rsc->priv->xml); crm_debug("Using anonymous clone name %s for %s (aka %s)", xml_id, action->rsc->id, action->rsc->priv->history_id); /* ID is what we'd like client to use * LONG_ID is what they might know it as instead * * LONG_ID is only strictly needed /here/ during the * transition period until all nodes in the cluster * are running the new software /and/ have rebooted * once (meaning that they've only ever spoken to a DC * supporting this feature). * * If anyone toggles the unique flag to 'on', the * 'instance free' name will correspond to an orphan * and fall into the clause above instead */ crm_xml_add(rsc_xml, PCMK_XA_ID, xml_id); if ((action->rsc->priv->history_id != NULL) && !pcmk__str_eq(xml_id, action->rsc->priv->history_id, pcmk__str_none)) { crm_xml_add(rsc_xml, PCMK__XA_LONG_ID, action->rsc->priv->history_id); } else { crm_xml_add(rsc_xml, PCMK__XA_LONG_ID, action->rsc->id); } } else { CRM_ASSERT(action->rsc->priv->history_id == NULL); crm_xml_add(rsc_xml, PCMK_XA_ID, action->rsc->id); } for (int lpc = 0; lpc < PCMK__NELEM(attr_list); lpc++) { crm_xml_add(rsc_xml, attr_list[lpc], g_hash_table_lookup(action->rsc->priv->meta, attr_list[lpc])); } } /*! * \internal * \brief Add action attributes to transition graph action XML * * \param[in,out] action Scheduled action * \param[in,out] action_xml Transition graph action XML for \p action */ static void add_action_attributes(pcmk_action_t *action, xmlNode *action_xml) { xmlNode *args_xml = NULL; pcmk_resource_t *rsc = action->rsc; /* We create free-standing XML to start, so we can sort the attributes * before adding it to action_xml, which keeps the scheduler regression * test graphs comparable. */ args_xml = pcmk__xe_create(action_xml, PCMK__XE_ATTRIBUTES); crm_xml_add(args_xml, PCMK_XA_CRM_FEATURE_SET, CRM_FEATURE_SET); g_hash_table_foreach(action->extra, hash2field, args_xml); if ((rsc != NULL) && (action->node != NULL)) { // Get the resource instance attributes, evaluated properly for node GHashTable *params = pe_rsc_params(rsc, action->node, rsc->priv->scheduler); pcmk__substitute_remote_addr(rsc, params); g_hash_table_foreach(params, hash2smartfield, args_xml); } else if ((rsc != NULL) && (rsc->priv->variant <= pcmk__rsc_variant_primitive)) { GHashTable *params = pe_rsc_params(rsc, NULL, rsc->priv->scheduler); g_hash_table_foreach(params, hash2smartfield, args_xml); } g_hash_table_foreach(action->meta, hash2metafield, args_xml); if (rsc != NULL) { pcmk_resource_t *parent = rsc; while (parent != NULL) { parent->priv->cmds->add_graph_meta(parent, args_xml); parent = parent->priv->parent; } pcmk__add_guest_meta_to_xml(args_xml, action); } else if (pcmk__str_eq(action->task, PCMK_ACTION_STONITH, pcmk__str_none) && (action->node != NULL)) { /* Pass the node's attributes as meta-attributes. * * @TODO: Determine whether it is still necessary to do this. It was * added in 33d99707, probably for the libfence-based implementation in * c9a90bd, which is no longer used. */ g_hash_table_foreach(action->node->priv->attrs, hash2metafield, args_xml); } pcmk__xe_sort_attrs(args_xml); } /*! * \internal * \brief Create the transition graph XML for a scheduled action * * \param[in,out] parent Parent XML element to add action to * \param[in,out] action Scheduled action * \param[in] skip_details If false, add action details as sub-elements * \param[in] scheduler Scheduler data */ static void create_graph_action(xmlNode *parent, pcmk_action_t *action, bool skip_details, const pcmk_scheduler_t *scheduler) { bool needs_node_info = true; bool needs_maintenance_info = false; xmlNode *action_xml = NULL; if ((action == NULL) || (scheduler == NULL)) { return; } // Create the top-level element based on task if (pcmk__str_eq(action->task, PCMK_ACTION_STONITH, pcmk__str_none)) { /* All fences need node info; guest node fences are pseudo-events */ if (pcmk_is_set(action->flags, pcmk__action_pseudo)) { action_xml = pcmk__xe_create(parent, PCMK__XE_PSEUDO_EVENT); } else { action_xml = pcmk__xe_create(parent, PCMK__XE_CRM_EVENT); } } else if (pcmk__str_any_of(action->task, PCMK_ACTION_DO_SHUTDOWN, PCMK_ACTION_CLEAR_FAILCOUNT, NULL)) { action_xml = pcmk__xe_create(parent, PCMK__XE_CRM_EVENT); } else if (pcmk__str_eq(action->task, PCMK_ACTION_LRM_DELETE, pcmk__str_none)) { // CIB-only clean-up for shutdown locks action_xml = pcmk__xe_create(parent, PCMK__XE_CRM_EVENT); crm_xml_add(action_xml, PCMK__XA_MODE, PCMK__VALUE_CIB); } else if (pcmk_is_set(action->flags, pcmk__action_pseudo)) { if (pcmk__str_eq(action->task, PCMK_ACTION_MAINTENANCE_NODES, pcmk__str_none)) { needs_maintenance_info = true; } action_xml = pcmk__xe_create(parent, PCMK__XE_PSEUDO_EVENT); needs_node_info = false; } else { action_xml = pcmk__xe_create(parent, PCMK__XE_RSC_OP); } crm_xml_add_int(action_xml, PCMK_XA_ID, action->id); crm_xml_add(action_xml, PCMK_XA_OPERATION, action->task); if ((action->rsc != NULL) && (action->rsc->priv->history_id != NULL)) { char *clone_key = NULL; guint interval_ms; if (pcmk__guint_from_hash(action->meta, PCMK_META_INTERVAL, 0, &interval_ms) != pcmk_rc_ok) { interval_ms = 0; } clone_key = clone_op_key(action, interval_ms); crm_xml_add(action_xml, PCMK__XA_OPERATION_KEY, clone_key); crm_xml_add(action_xml, "internal_" PCMK__XA_OPERATION_KEY, action->uuid); free(clone_key); } else { crm_xml_add(action_xml, PCMK__XA_OPERATION_KEY, action->uuid); } if (needs_node_info && (action->node != NULL)) { add_node_details(action, action_xml); pcmk__insert_dup(action->meta, PCMK__META_ON_NODE, action->node->priv->name); pcmk__insert_dup(action->meta, PCMK__META_ON_NODE_UUID, action->node->priv->id); } if (skip_details) { return; } if ((action->rsc != NULL) && !pcmk_is_set(action->flags, pcmk__action_pseudo)) { // This is a real resource action, so add resource details add_resource_details(action, action_xml); } /* List any attributes in effect */ add_action_attributes(action, action_xml); /* List any nodes this action is expected to make down */ if (needs_node_info && (action->node != NULL)) { add_downed_nodes(action_xml, action); } if (needs_maintenance_info) { add_maintenance_nodes(action_xml, scheduler); } } /*! * \internal * \brief Check whether an action should be added to the transition graph * * \param[in,out] action Action to check * * \return true if action should be added to graph, otherwise false */ static bool should_add_action_to_graph(pcmk_action_t *action) { if (!pcmk_is_set(action->flags, pcmk__action_runnable)) { crm_trace("Ignoring action %s (%d): unrunnable", action->uuid, action->id); return false; } if (pcmk_is_set(action->flags, pcmk__action_optional) && !pcmk_is_set(action->flags, pcmk__action_always_in_graph)) { crm_trace("Ignoring action %s (%d): optional", action->uuid, action->id); return false; } /* Actions for unmanaged resources should be excluded from the graph, * with the exception of monitors and cancellation of recurring monitors. */ if ((action->rsc != NULL) && !pcmk_is_set(action->rsc->flags, pcmk__rsc_managed) && !pcmk__str_eq(action->task, PCMK_ACTION_MONITOR, pcmk__str_none)) { const char *interval_ms_s; /* A cancellation of a recurring monitor will get here because the task * is cancel rather than monitor, but the interval can still be used to * recognize it. The interval has been normalized to milliseconds by * this point, so a string comparison is sufficient. */ interval_ms_s = g_hash_table_lookup(action->meta, PCMK_META_INTERVAL); if (pcmk__str_eq(interval_ms_s, "0", pcmk__str_null_matches)) { crm_trace("Ignoring action %s (%d): for unmanaged resource (%s)", action->uuid, action->id, action->rsc->id); return false; } } /* Always add pseudo-actions, fence actions, and shutdown actions (already * determined to be required and runnable by this point) */ if (pcmk_is_set(action->flags, pcmk__action_pseudo) || pcmk__strcase_any_of(action->task, PCMK_ACTION_STONITH, PCMK_ACTION_DO_SHUTDOWN, NULL)) { return true; } if (action->node == NULL) { pcmk__sched_err(action->scheduler, "Skipping action %s (%d) " "because it was not assigned to a node (bug?)", action->uuid, action->id); pcmk__log_action("Unassigned", action, false); return false; } if (pcmk_is_set(action->flags, pcmk__action_on_dc)) { crm_trace("Action %s (%d) should be dumped: " "can run on DC instead of %s", action->uuid, action->id, pcmk__node_name(action->node)); } else if (pcmk__is_guest_or_bundle_node(action->node) && !pcmk_is_set(action->node->priv->flags, pcmk__node_remote_reset)) { crm_trace("Action %s (%d) should be dumped: " "assuming will be runnable on guest %s", action->uuid, action->id, pcmk__node_name(action->node)); } else if (!action->node->details->online) { pcmk__sched_err(action->scheduler, "Skipping action %s (%d) " "because it was scheduled for offline node (bug?)", action->uuid, action->id); pcmk__log_action("Offline node", action, false); return false; } else if (action->node->details->unclean) { pcmk__sched_err(action->scheduler, "Skipping action %s (%d) " "because it was scheduled for unclean node (bug?)", action->uuid, action->id); pcmk__log_action("Unclean node", action, false); return false; } return true; } /*! * \internal * \brief Check whether an ordering's flags can change an action * * \param[in] ordering Ordering to check * * \return true if ordering has flags that can change an action, false otherwise */ static bool ordering_can_change_actions(const pcmk__related_action_t *ordering) { return pcmk_any_flags_set(ordering->flags, ~(pcmk__ar_then_implies_first_graphed |pcmk__ar_first_implies_then_graphed |pcmk__ar_ordered)); } /*! * \internal * \brief Check whether an action input should be in the transition graph * * \param[in] action Action to check * \param[in,out] input Action input to check * * \return true if input should be in graph, false otherwise * \note This function may not only check an input, but disable it under certian * circumstances (load or anti-colocation orderings that are not needed). */ static bool should_add_input_to_graph(const pcmk_action_t *action, pcmk__related_action_t *input) { if (input->graphed) { return true; } if (input->flags == pcmk__ar_none) { crm_trace("Ignoring %s (%d) input %s (%d): " "ordering disabled", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if (!pcmk_is_set(input->action->flags, pcmk__action_runnable) && !ordering_can_change_actions(input)) { crm_trace("Ignoring %s (%d) input %s (%d): " "optional and input unrunnable", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if (!pcmk_is_set(input->action->flags, pcmk__action_runnable) && pcmk_is_set(input->flags, pcmk__ar_min_runnable)) { crm_trace("Ignoring %s (%d) input %s (%d): " "minimum number of instances required but input unrunnable", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if (pcmk_is_set(input->flags, pcmk__ar_unmigratable_then_blocks) && !pcmk_is_set(input->action->flags, pcmk__action_runnable)) { crm_trace("Ignoring %s (%d) input %s (%d): " "input blocked if 'then' unmigratable", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if (pcmk_is_set(input->flags, pcmk__ar_if_first_unmigratable) && pcmk_is_set(input->action->flags, pcmk__action_migratable)) { crm_trace("Ignoring %s (%d) input %s (%d): ordering applies " "only if input is unmigratable, but it is migratable", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if ((input->flags == pcmk__ar_ordered) && pcmk_is_set(input->action->flags, pcmk__action_migratable) && pcmk__ends_with(input->action->uuid, "_stop_0")) { crm_trace("Ignoring %s (%d) input %s (%d): " "optional but stop in migration", action->uuid, action->id, input->action->uuid, input->action->id); return false; } else if (input->flags == pcmk__ar_if_on_same_node_or_target) { pcmk_node_t *input_node = input->action->node; if ((action->rsc != NULL) && pcmk__str_eq(action->task, PCMK_ACTION_MIGRATE_TO, pcmk__str_none)) { pcmk_node_t *assigned = action->rsc->priv->assigned_node; /* For load_stopped -> migrate_to orderings, we care about where * the resource has been assigned, not where migrate_to will be * executed. */ if (!pcmk__same_node(input_node, assigned)) { crm_trace("Ignoring %s (%d) input %s (%d): " "migration target %s is not same as input node %s", action->uuid, action->id, input->action->uuid, input->action->id, (assigned? assigned->priv->name : ""), (input_node? input_node->priv->name : "")); input->flags = pcmk__ar_none; return false; } } else if (!pcmk__same_node(input_node, action->node)) { crm_trace("Ignoring %s (%d) input %s (%d): " "not on same node (%s vs %s)", action->uuid, action->id, input->action->uuid, input->action->id, (action->node? action->node->priv->name : ""), (input_node? input_node->priv->name : "")); input->flags = pcmk__ar_none; return false; } else if (pcmk_is_set(input->action->flags, pcmk__action_optional)) { crm_trace("Ignoring %s (%d) input %s (%d): " "ordering optional", action->uuid, action->id, input->action->uuid, input->action->id); input->flags = pcmk__ar_none; return false; } } else if (input->flags == pcmk__ar_if_required_on_same_node) { if (input->action->node && action->node && !pcmk__same_node(input->action->node, action->node)) { crm_trace("Ignoring %s (%d) input %s (%d): " "not on same node (%s vs %s)", action->uuid, action->id, input->action->uuid, input->action->id, pcmk__node_name(action->node), pcmk__node_name(input->action->node)); input->flags = pcmk__ar_none; return false; } else if (pcmk_is_set(input->action->flags, pcmk__action_optional)) { crm_trace("Ignoring %s (%d) input %s (%d): optional", action->uuid, action->id, input->action->uuid, input->action->id); input->flags = pcmk__ar_none; return false; } } else if (input->action->rsc && input->action->rsc != action->rsc && pcmk_is_set(input->action->rsc->flags, pcmk__rsc_failed) && !pcmk_is_set(input->action->rsc->flags, pcmk__rsc_managed) && pcmk__ends_with(input->action->uuid, "_stop_0") && pcmk__is_clone(action->rsc)) { crm_warn("Ignoring requirement that %s complete before %s:" " unmanaged failed resources cannot prevent clone shutdown", input->action->uuid, action->uuid); return false; } else if (pcmk_is_set(input->action->flags, pcmk__action_optional) && !pcmk_any_flags_set(input->action->flags, pcmk__action_always_in_graph |pcmk__action_added_to_graph) && !should_add_action_to_graph(input->action)) { crm_trace("Ignoring %s (%d) input %s (%d): " "input optional", action->uuid, action->id, input->action->uuid, input->action->id); return false; } crm_trace("%s (%d) input %s %s (%d) on %s should be dumped: %s %s %#.6x", action->uuid, action->id, action_type_str(input->action->flags), input->action->uuid, input->action->id, action_node_str(input->action), action_runnable_str(input->action->flags), action_optional_str(input->action->flags), input->flags); return true; } /*! * \internal * \brief Check whether an ordering creates an ordering loop * * \param[in] init_action "First" action in ordering * \param[in] action Callers should always set this the same as * \p init_action (this function may use a different * value for recursive calls) * \param[in,out] input Action wrapper for "then" action in ordering * * \return true if the ordering creates a loop, otherwise false */ bool pcmk__graph_has_loop(const pcmk_action_t *init_action, const pcmk_action_t *action, pcmk__related_action_t *input) { bool has_loop = false; if (pcmk_is_set(input->action->flags, pcmk__action_detect_loop)) { crm_trace("Breaking tracking loop: %s@%s -> %s@%s (%#.6x)", input->action->uuid, input->action->node? input->action->node->priv->name : "", action->uuid, action->node? action->node->priv->name : "", input->flags); return false; } // Don't need to check inputs that won't be used if (!should_add_input_to_graph(action, input)) { return false; } if (input->action == init_action) { crm_debug("Input loop found in %s@%s ->...-> %s@%s", action->uuid, action->node? action->node->priv->name : "", init_action->uuid, init_action->node? init_action->node->priv->name : ""); return true; } pcmk__set_action_flags(input->action, pcmk__action_detect_loop); crm_trace("Checking inputs of action %s@%s input %s@%s (%#.6x)" "for graph loop with %s@%s ", action->uuid, action->node? action->node->priv->name : "", input->action->uuid, input->action->node? input->action->node->priv->name : "", input->flags, init_action->uuid, init_action->node? init_action->node->priv->name : ""); // Recursively check input itself for loops for (GList *iter = input->action->actions_before; iter != NULL; iter = iter->next) { if (pcmk__graph_has_loop(init_action, input->action, (pcmk__related_action_t *) iter->data)) { // Recursive call already logged a debug message has_loop = true; break; } } pcmk__clear_action_flags(input->action, pcmk__action_detect_loop); if (!has_loop) { crm_trace("No input loop found in %s@%s -> %s@%s (%#.6x)", input->action->uuid, input->action->node? input->action->node->priv->name : "", action->uuid, action->node? action->node->priv->name : "", input->flags); } return has_loop; } /*! * \internal * \brief Create a synapse XML element for a transition graph * * \param[in] action Action that synapse is for * \param[in,out] scheduler Scheduler data containing graph * * \return Newly added XML element for new graph synapse */ static xmlNode * create_graph_synapse(const pcmk_action_t *action, pcmk_scheduler_t *scheduler) { int synapse_priority = 0; xmlNode *syn = pcmk__xe_create(scheduler->priv->graph, "synapse"); crm_xml_add_int(syn, PCMK_XA_ID, scheduler->priv->synapse_count++); if (action->rsc != NULL) { synapse_priority = action->rsc->priv->priority; } if (action->priority > synapse_priority) { synapse_priority = action->priority; } if (synapse_priority > 0) { crm_xml_add_int(syn, PCMK__XA_PRIORITY, synapse_priority); } return syn; } /*! * \internal * \brief Add an action to the transition graph XML if appropriate * * \param[in,out] data Action to possibly add * \param[in,out] user_data Scheduler data * * \note This will de-duplicate the action inputs, meaning that the * pcmk__related_action_t:type flags can no longer be relied on to retain * their original settings. That means this MUST be called after * pcmk__apply_orderings() is complete, and nothing after this should rely * on those type flags. (For example, some code looks for type equal to * some flag rather than whether the flag is set, and some code looks for * particular combinations of flags -- such code must be done before * pcmk__create_graph().) */ static void add_action_to_graph(gpointer data, gpointer user_data) { pcmk_action_t *action = (pcmk_action_t *) data; pcmk_scheduler_t *scheduler = (pcmk_scheduler_t *) user_data; xmlNode *syn = NULL; xmlNode *set = NULL; xmlNode *in = NULL; /* If we haven't already, de-duplicate inputs (even if we won't be adding * the action to the graph, so that crm_simulate's dot graphs don't have * duplicates). */ if (!pcmk_is_set(action->flags, pcmk__action_inputs_deduplicated)) { pcmk__deduplicate_action_inputs(action); pcmk__set_action_flags(action, pcmk__action_inputs_deduplicated); } if (pcmk_is_set(action->flags, pcmk__action_added_to_graph) || !should_add_action_to_graph(action)) { return; // Already added, or shouldn't be } pcmk__set_action_flags(action, pcmk__action_added_to_graph); crm_trace("Adding action %d (%s%s%s) to graph", action->id, action->uuid, ((action->node == NULL)? "" : " on "), ((action->node == NULL)? "" : action->node->priv->name)); syn = create_graph_synapse(action, scheduler); set = pcmk__xe_create(syn, "action_set"); in = pcmk__xe_create(syn, "inputs"); create_graph_action(set, action, false, scheduler); for (GList *lpc = action->actions_before; lpc != NULL; lpc = lpc->next) { pcmk__related_action_t *input = lpc->data; if (should_add_input_to_graph(action, input)) { xmlNode *input_xml = pcmk__xe_create(in, "trigger"); input->graphed = true; create_graph_action(input_xml, input->action, true, scheduler); } } } static int transition_id = 0; /*! * \internal * \brief Log a message after calculating a transition * * \param[in] scheduler Scheduler data * \param[in] filename Where transition input is stored */ void pcmk__log_transition_summary(const pcmk_scheduler_t *scheduler, const char *filename) { if (pcmk_is_set(scheduler->flags, pcmk__sched_processing_error) || pcmk__config_has_error) { crm_err("Calculated transition %d (with errors)%s%s", transition_id, (filename == NULL)? "" : ", saving inputs in ", (filename == NULL)? "" : filename); } else if (pcmk_is_set(scheduler->flags, pcmk__sched_processing_warning) || pcmk__config_has_warning) { crm_warn("Calculated transition %d (with warnings)%s%s", transition_id, (filename == NULL)? "" : ", saving inputs in ", (filename == NULL)? "" : filename); } else { crm_notice("Calculated transition %d%s%s", transition_id, (filename == NULL)? "" : ", saving inputs in ", (filename == NULL)? "" : filename); } if (pcmk__config_has_error) { crm_notice("Configuration errors found during scheduler processing," " please run \"crm_verify -L\" to identify issues"); } } /*! * \internal * \brief Add a resource's actions to the transition graph * * \param[in,out] rsc Resource whose actions should be added */ void pcmk__add_rsc_actions_to_graph(pcmk_resource_t *rsc) { GList *iter = NULL; CRM_ASSERT(rsc != NULL); pcmk__rsc_trace(rsc, "Adding actions for %s to graph", rsc->id); // First add the resource's own actions g_list_foreach(rsc->priv->actions, add_action_to_graph, rsc->priv->scheduler); // Then recursively add its children's actions (appropriate to variant) for (iter = rsc->priv->children; iter != NULL; iter = iter->next) { pcmk_resource_t *child_rsc = (pcmk_resource_t *) iter->data; child_rsc->priv->cmds->add_actions_to_graph(child_rsc); } } /*! * \internal * \brief Create a transition graph with all cluster actions needed * * \param[in,out] scheduler Scheduler data */ void pcmk__create_graph(pcmk_scheduler_t *scheduler) { GList *iter = NULL; const char *value = NULL; long long limit = 0LL; GHashTable *config_hash = scheduler->priv->options; + int rc = pcmk_rc_ok; transition_id++; crm_trace("Creating transition graph %d", transition_id); scheduler->priv->graph = pcmk__xe_create(NULL, PCMK__XE_TRANSITION_GRAPH); value = pcmk__cluster_option(config_hash, PCMK_OPT_CLUSTER_DELAY); crm_xml_add(scheduler->priv->graph, PCMK_OPT_CLUSTER_DELAY, value); value = pcmk__cluster_option(config_hash, PCMK_OPT_STONITH_TIMEOUT); crm_xml_add(scheduler->priv->graph, PCMK_OPT_STONITH_TIMEOUT, value); crm_xml_add(scheduler->priv->graph, "failed-stop-offset", "INFINITY"); if (pcmk_is_set(scheduler->flags, pcmk__sched_start_failure_fatal)) { crm_xml_add(scheduler->priv->graph, "failed-start-offset", "INFINITY"); } else { crm_xml_add(scheduler->priv->graph, "failed-start-offset", "1"); } value = pcmk__cluster_option(config_hash, PCMK_OPT_BATCH_LIMIT); crm_xml_add(scheduler->priv->graph, PCMK_OPT_BATCH_LIMIT, value); crm_xml_add_int(scheduler->priv->graph, "transition_id", transition_id); value = pcmk__cluster_option(config_hash, PCMK_OPT_MIGRATION_LIMIT); - if ((pcmk__scan_ll(value, &limit, 0LL) == pcmk_rc_ok) && (limit > 0)) { + rc = pcmk__scan_ll(value, &limit, 0LL); + if (rc != pcmk_rc_ok) { + crm_warn("Ignoring invalid value '%s' for " PCMK_OPT_MIGRATION_LIMIT + ": %s", value, pcmk_rc_str(rc)); + } else if (limit > 0) { crm_xml_add(scheduler->priv->graph, PCMK_OPT_MIGRATION_LIMIT, value); } if (scheduler->priv->recheck_by > 0) { char *recheck_epoch = NULL; recheck_epoch = crm_strdup_printf("%llu", (unsigned long long) scheduler->priv->recheck_by); crm_xml_add(scheduler->priv->graph, "recheck-by", recheck_epoch); free(recheck_epoch); } /* The following code will de-duplicate action inputs, so nothing past this * should rely on the action input type flags retaining their original * values. */ // Add resource actions to graph for (iter = scheduler->priv->resources; iter != NULL; iter = iter->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) iter->data; pcmk__rsc_trace(rsc, "Processing actions for %s", rsc->id); rsc->priv->cmds->add_actions_to_graph(rsc); } // Add pseudo-action for list of nodes with maintenance state update add_maintenance_update(scheduler); // Add non-resource (node) actions for (iter = scheduler->priv->actions; iter != NULL; iter = iter->next) { pcmk_action_t *action = (pcmk_action_t *) iter->data; if ((action->rsc != NULL) && (action->node != NULL) && action->node->details->shutdown && !pcmk_is_set(action->rsc->flags, pcmk__rsc_maintenance) && !pcmk_any_flags_set(action->flags, pcmk__action_optional|pcmk__action_runnable) && pcmk__str_eq(action->task, PCMK_ACTION_STOP, pcmk__str_none)) { /* Eventually we should just ignore the 'fence' case, but for now * it's the best way to detect (in CTS) when CIB resource updates * are being lost. */ if (pcmk_is_set(scheduler->flags, pcmk__sched_quorate) || (scheduler->no_quorum_policy == pcmk_no_quorum_ignore)) { const bool managed = pcmk_is_set(action->rsc->flags, pcmk__rsc_managed); const bool failed = pcmk_is_set(action->rsc->flags, pcmk__rsc_failed); crm_crit("Cannot %s %s because of %s:%s%s (%s)", action->node->details->unclean? "fence" : "shut down", pcmk__node_name(action->node), action->rsc->id, (managed? " blocked" : " unmanaged"), (failed? " failed" : ""), action->uuid); } } add_action_to_graph((gpointer) action, (gpointer) scheduler); } crm_log_xml_trace(scheduler->priv->graph, "graph"); } diff --git a/lib/pacemaker/pcmk_sched_primitive.c b/lib/pacemaker/pcmk_sched_primitive.c index ba89c11d33..18bcaaa243 100644 --- a/lib/pacemaker/pcmk_sched_primitive.c +++ b/lib/pacemaker/pcmk_sched_primitive.c @@ -1,1716 +1,1721 @@ /* * Copyright 2004-2024 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 #include // uint8_t, uint32_t #include #include #include "libpacemaker_private.h" static void stop_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); static void start_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); static void demote_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); static void promote_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); static void assert_role_error(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); #define RSC_ROLE_MAX (pcmk_role_promoted + 1) static enum rsc_role_e rsc_state_matrix[RSC_ROLE_MAX][RSC_ROLE_MAX] = { /* This array lists the immediate next role when transitioning from one role * to a target role. For example, when going from Stopped to Promoted, the * next role is Unpromoted, because the resource must be started before it * can be promoted. The current state then becomes Started, which is fed * into this array again, giving a next role of Promoted. * * Current role Immediate next role Final target role * ------------ ------------------- ----------------- */ /* Unknown */ { pcmk_role_unknown, /* Unknown */ pcmk_role_stopped, /* Stopped */ pcmk_role_stopped, /* Started */ pcmk_role_stopped, /* Unpromoted */ pcmk_role_stopped, /* Promoted */ }, /* Stopped */ { pcmk_role_stopped, /* Unknown */ pcmk_role_stopped, /* Stopped */ pcmk_role_started, /* Started */ pcmk_role_unpromoted, /* Unpromoted */ pcmk_role_unpromoted, /* Promoted */ }, /* Started */ { pcmk_role_stopped, /* Unknown */ pcmk_role_stopped, /* Stopped */ pcmk_role_started, /* Started */ pcmk_role_unpromoted, /* Unpromoted */ pcmk_role_promoted, /* Promoted */ }, /* Unpromoted */ { pcmk_role_stopped, /* Unknown */ pcmk_role_stopped, /* Stopped */ pcmk_role_stopped, /* Started */ pcmk_role_unpromoted, /* Unpromoted */ pcmk_role_promoted, /* Promoted */ }, /* Promoted */ { pcmk_role_stopped, /* Unknown */ pcmk_role_unpromoted, /* Stopped */ pcmk_role_unpromoted, /* Started */ pcmk_role_unpromoted, /* Unpromoted */ pcmk_role_promoted, /* Promoted */ }, }; /*! * \internal * \brief Function to schedule actions needed for a role change * * \param[in,out] rsc Resource whose role is changing * \param[in,out] node Node where resource will be in its next role * \param[in] optional Whether scheduled actions should be optional */ typedef void (*rsc_transition_fn)(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional); static rsc_transition_fn rsc_action_matrix[RSC_ROLE_MAX][RSC_ROLE_MAX] = { /* This array lists the function needed to transition directly from one role * to another. NULL indicates that nothing is needed. * * Current role Transition function Next role * ------------ ------------------- ---------- */ /* Unknown */ { assert_role_error, /* Unknown */ stop_resource, /* Stopped */ assert_role_error, /* Started */ assert_role_error, /* Unpromoted */ assert_role_error, /* Promoted */ }, /* Stopped */ { assert_role_error, /* Unknown */ NULL, /* Stopped */ start_resource, /* Started */ start_resource, /* Unpromoted */ assert_role_error, /* Promoted */ }, /* Started */ { assert_role_error, /* Unknown */ stop_resource, /* Stopped */ NULL, /* Started */ NULL, /* Unpromoted */ promote_resource, /* Promoted */ }, /* Unpromoted */ { assert_role_error, /* Unknown */ stop_resource, /* Stopped */ stop_resource, /* Started */ NULL, /* Unpromoted */ promote_resource, /* Promoted */ }, /* Promoted */ { assert_role_error, /* Unknown */ demote_resource, /* Stopped */ demote_resource, /* Started */ demote_resource, /* Unpromoted */ NULL, /* Promoted */ }, }; /*! * \internal * \brief Get a list of a resource's allowed nodes sorted by node score * * \param[in] rsc Resource to check * * \return List of allowed nodes sorted by node score */ static GList * sorted_allowed_nodes(const pcmk_resource_t *rsc) { if (rsc->priv->allowed_nodes != NULL) { GList *nodes = g_hash_table_get_values(rsc->priv->allowed_nodes); if (nodes != NULL) { return pcmk__sort_nodes(nodes, pcmk__current_node(rsc)); } } return NULL; } /*! * \internal * \brief Assign a resource to its best allowed node, if possible * * \param[in,out] rsc Resource to choose a node for * \param[in] prefer If not \c NULL, prefer this node when all else * equal * \param[in] stop_if_fail If \c true and \p rsc can't be assigned to a * node, set next role to stopped and update * existing actions * * \return true if \p rsc could be assigned to a node, otherwise false * * \note If \p stop_if_fail is \c false, then \c pcmk__unassign_resource() can * completely undo the assignment. A successful assignment can be either * undone or left alone as final. A failed assignment has the same effect * as calling pcmk__unassign_resource(); there are no side effects on * roles or actions. */ static bool assign_best_node(pcmk_resource_t *rsc, const pcmk_node_t *prefer, bool stop_if_fail) { GList *nodes = NULL; pcmk_node_t *chosen = NULL; pcmk_node_t *best = NULL; const pcmk_node_t *most_free_node = pcmk__ban_insufficient_capacity(rsc); if (prefer == NULL) { prefer = most_free_node; } if (!pcmk_is_set(rsc->flags, pcmk__rsc_unassigned)) { // We've already finished assignment of resources to nodes return rsc->priv->assigned_node != NULL; } // Sort allowed nodes by score nodes = sorted_allowed_nodes(rsc); if (nodes != NULL) { best = (pcmk_node_t *) nodes->data; // First node has best score } if ((prefer != NULL) && (nodes != NULL)) { // Get the allowed node version of prefer chosen = g_hash_table_lookup(rsc->priv->allowed_nodes, prefer->priv->id); if (chosen == NULL) { pcmk__rsc_trace(rsc, "Preferred node %s for %s was unknown", pcmk__node_name(prefer), rsc->id); /* Favor the preferred node as long as its score is at least as good as * the best allowed node's. * * An alternative would be to favor the preferred node even if the best * node is better, when the best node's score is less than INFINITY. */ } else if (chosen->assign->score < best->assign->score) { pcmk__rsc_trace(rsc, "Preferred node %s for %s was unsuitable", pcmk__node_name(chosen), rsc->id); chosen = NULL; } else if (!pcmk__node_available(chosen, true, false)) { pcmk__rsc_trace(rsc, "Preferred node %s for %s was unavailable", pcmk__node_name(chosen), rsc->id); chosen = NULL; } else { pcmk__rsc_trace(rsc, "Chose preferred node %s for %s " "(ignoring %d candidates)", pcmk__node_name(chosen), rsc->id, g_list_length(nodes)); } } if ((chosen == NULL) && (best != NULL)) { /* Either there is no preferred node, or the preferred node is not * suitable, but another node is allowed to run the resource. */ chosen = best; if (!pcmk__is_unique_clone(rsc->priv->parent) && (chosen->assign->score > 0) // Zero not acceptable && pcmk__node_available(chosen, false, false)) { /* If the resource is already running on a node, prefer that node if * it is just as good as the chosen node. * * We don't do this for unique clone instances, because * pcmk__assign_instances() has already assigned instances to their * running nodes when appropriate, and if we get here, we don't want * remaining unassigned instances to prefer a node that's already * running another instance. */ pcmk_node_t *running = pcmk__current_node(rsc); if (running == NULL) { // Nothing to do } else if (!pcmk__node_available(running, true, false)) { pcmk__rsc_trace(rsc, "Current node for %s (%s) can't run resources", rsc->id, pcmk__node_name(running)); } else { int nodes_with_best_score = 1; for (GList *iter = nodes->next; iter; iter = iter->next) { pcmk_node_t *allowed = (pcmk_node_t *) iter->data; if (allowed->assign->score != chosen->assign->score) { // The nodes are sorted by score, so no more are equal break; } if (pcmk__same_node(allowed, running)) { // Scores are equal, so prefer the current node chosen = allowed; } nodes_with_best_score++; } if (nodes_with_best_score > 1) { uint8_t log_level = LOG_INFO; if (chosen->assign->score >= PCMK_SCORE_INFINITY) { log_level = LOG_WARNING; } do_crm_log(log_level, "Chose %s for %s from %d nodes with score %s", pcmk__node_name(chosen), rsc->id, nodes_with_best_score, pcmk_readable_score(chosen->assign->score)); } } } pcmk__rsc_trace(rsc, "Chose %s for %s from %d candidates", pcmk__node_name(chosen), rsc->id, g_list_length(nodes)); } pcmk__assign_resource(rsc, chosen, false, stop_if_fail); g_list_free(nodes); return rsc->priv->assigned_node != NULL; } /*! * \internal * \brief Apply a "this with" colocation to a node's allowed node scores * * \param[in,out] colocation Colocation to apply * \param[in,out] rsc Resource being assigned */ static void apply_this_with(pcmk__colocation_t *colocation, pcmk_resource_t *rsc) { GHashTable *archive = NULL; pcmk_resource_t *other = colocation->primary; // In certain cases, we will need to revert the node scores if ((colocation->dependent_role >= pcmk_role_promoted) || ((colocation->score < 0) && (colocation->score > -PCMK_SCORE_INFINITY))) { archive = pcmk__copy_node_table(rsc->priv->allowed_nodes); } if (pcmk_is_set(other->flags, pcmk__rsc_unassigned)) { pcmk__rsc_trace(rsc, "%s: Assigning colocation %s primary %s first" "(score=%d role=%s)", rsc->id, colocation->id, other->id, colocation->score, pcmk_role_text(colocation->dependent_role)); other->priv->cmds->assign(other, NULL, true); } // Apply the colocation score to this resource's allowed node scores rsc->priv->cmds->apply_coloc_score(rsc, other, colocation, true); if ((archive != NULL) && !pcmk__any_node_available(rsc->priv->allowed_nodes)) { pcmk__rsc_info(rsc, "%s: Reverting scores from colocation with %s " "because no nodes allowed", rsc->id, other->id); g_hash_table_destroy(rsc->priv->allowed_nodes); rsc->priv->allowed_nodes = archive; archive = NULL; } if (archive != NULL) { g_hash_table_destroy(archive); } } /*! * \internal * \brief Update a Pacemaker Remote node once its connection has been assigned * * \param[in] connection Connection resource that has been assigned */ static void remote_connection_assigned(const pcmk_resource_t *connection) { pcmk_node_t *remote_node = pcmk_find_node(connection->priv->scheduler, connection->id); CRM_CHECK(remote_node != NULL, return); if ((connection->priv->assigned_node != NULL) && (connection->priv->next_role != pcmk_role_stopped)) { crm_trace("Pacemaker Remote node %s will be online", remote_node->priv->id); remote_node->details->online = TRUE; if (!pcmk_is_set(remote_node->priv->flags, pcmk__node_seen)) { // Avoid unnecessary fence, since we will attempt connection remote_node->details->unclean = FALSE; } } else { crm_trace("Pacemaker Remote node %s will be shut down " "(%sassigned connection's next role is %s)", remote_node->priv->id, ((connection->priv->assigned_node == NULL)? "un" : ""), pcmk_role_text(connection->priv->next_role)); remote_node->details->shutdown = TRUE; } } /*! * \internal * \brief Assign a primitive resource to a node * * \param[in,out] rsc Resource to assign to a node * \param[in] prefer Node to prefer, if all else is equal * \param[in] stop_if_fail If \c true and \p rsc can't be assigned to a * node, set next role to stopped and update * existing actions * * \return Node that \p rsc is assigned to, if assigned entirely to one node * * \note If \p stop_if_fail is \c false, then \c pcmk__unassign_resource() can * completely undo the assignment. A successful assignment can be either * undone or left alone as final. A failed assignment has the same effect * as calling pcmk__unassign_resource(); there are no side effects on * roles or actions. */ pcmk_node_t * pcmk__primitive_assign(pcmk_resource_t *rsc, const pcmk_node_t *prefer, bool stop_if_fail) { GList *this_with_colocations = NULL; GList *with_this_colocations = NULL; GList *iter = NULL; pcmk_resource_t *parent = NULL; pcmk__colocation_t *colocation = NULL; pcmk_scheduler_t *scheduler = NULL; CRM_ASSERT(pcmk__is_primitive(rsc)); scheduler = rsc->priv->scheduler; parent = rsc->priv->parent; // Never assign a child without parent being assigned first if ((parent != NULL) && !pcmk_is_set(parent->flags, pcmk__rsc_assigning)) { pcmk__rsc_debug(rsc, "%s: Assigning parent %s first", rsc->id, parent->id); parent->priv->cmds->assign(parent, prefer, stop_if_fail); } if (!pcmk_is_set(rsc->flags, pcmk__rsc_unassigned)) { // Assignment has already been done const char *node_name = "no node"; if (rsc->priv->assigned_node != NULL) { node_name = pcmk__node_name(rsc->priv->assigned_node); } pcmk__rsc_debug(rsc, "%s: pre-assigned to %s", rsc->id, node_name); return rsc->priv->assigned_node; } // Ensure we detect assignment loops if (pcmk_is_set(rsc->flags, pcmk__rsc_assigning)) { pcmk__rsc_debug(rsc, "Breaking assignment loop involving %s", rsc->id); return NULL; } pcmk__set_rsc_flags(rsc, pcmk__rsc_assigning); pe__show_node_scores(true, rsc, "Pre-assignment", rsc->priv->allowed_nodes, scheduler); this_with_colocations = pcmk__this_with_colocations(rsc); with_this_colocations = pcmk__with_this_colocations(rsc); // Apply mandatory colocations first, to satisfy as many as possible for (iter = this_with_colocations; iter != NULL; iter = iter->next) { colocation = iter->data; if ((colocation->score <= -PCMK_SCORE_INFINITY) || (colocation->score >= PCMK_SCORE_INFINITY)) { apply_this_with(colocation, rsc); } } for (iter = with_this_colocations; iter != NULL; iter = iter->next) { colocation = iter->data; if ((colocation->score <= -PCMK_SCORE_INFINITY) || (colocation->score >= PCMK_SCORE_INFINITY)) { pcmk__add_dependent_scores(colocation, rsc); } } pe__show_node_scores(true, rsc, "Mandatory-colocations", rsc->priv->allowed_nodes, scheduler); // Then apply optional colocations for (iter = this_with_colocations; iter != NULL; iter = iter->next) { colocation = iter->data; if ((colocation->score > -PCMK_SCORE_INFINITY) && (colocation->score < PCMK_SCORE_INFINITY)) { apply_this_with(colocation, rsc); } } for (iter = with_this_colocations; iter != NULL; iter = iter->next) { colocation = iter->data; if ((colocation->score > -PCMK_SCORE_INFINITY) && (colocation->score < PCMK_SCORE_INFINITY)) { pcmk__add_dependent_scores(colocation, rsc); } } g_list_free(this_with_colocations); g_list_free(with_this_colocations); if (rsc->priv->next_role == pcmk_role_stopped) { pcmk__rsc_trace(rsc, "Banning %s from all nodes because it will be stopped", rsc->id); resource_location(rsc, NULL, -PCMK_SCORE_INFINITY, PCMK_META_TARGET_ROLE, scheduler); } else if ((rsc->priv->next_role > rsc->priv->orig_role) && !pcmk_is_set(scheduler->flags, pcmk__sched_quorate) && (scheduler->no_quorum_policy == pcmk_no_quorum_freeze)) { crm_notice("Resource %s cannot be elevated from %s to %s due to " PCMK_OPT_NO_QUORUM_POLICY "=" PCMK_VALUE_FREEZE, rsc->id, pcmk_role_text(rsc->priv->orig_role), pcmk_role_text(rsc->priv->next_role)); pe__set_next_role(rsc, rsc->priv->orig_role, PCMK_OPT_NO_QUORUM_POLICY "=" PCMK_VALUE_FREEZE); } pe__show_node_scores(!pcmk_is_set(scheduler->flags, pcmk__sched_output_scores), rsc, __func__, rsc->priv->allowed_nodes, scheduler); // Unmanage resource if fencing is enabled but no device is configured if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled) && !pcmk_is_set(scheduler->flags, pcmk__sched_have_fencing)) { pcmk__clear_rsc_flags(rsc, pcmk__rsc_managed); } if (!pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { // Unmanaged resources stay on their current node const char *reason = NULL; pcmk_node_t *assign_to = NULL; pe__set_next_role(rsc, rsc->priv->orig_role, "unmanaged"); assign_to = pcmk__current_node(rsc); if (assign_to == NULL) { reason = "inactive"; } else if (rsc->priv->orig_role == pcmk_role_promoted) { reason = "promoted"; } else if (pcmk_is_set(rsc->flags, pcmk__rsc_failed)) { reason = "failed"; } else { reason = "active"; } pcmk__rsc_info(rsc, "Unmanaged resource %s assigned to %s: %s", rsc->id, (assign_to? assign_to->priv->name : "no node"), reason); pcmk__assign_resource(rsc, assign_to, true, stop_if_fail); } else if (pcmk_is_set(scheduler->flags, pcmk__sched_stop_all)) { // Must stop at some point, but be consistent with stop_if_fail if (stop_if_fail) { pcmk__rsc_debug(rsc, "Forcing %s to stop: " PCMK_OPT_STOP_ALL_RESOURCES, rsc->id); } pcmk__assign_resource(rsc, NULL, true, stop_if_fail); } else if (!assign_best_node(rsc, prefer, stop_if_fail)) { // Assignment failed if (!pcmk_is_set(rsc->flags, pcmk__rsc_removed)) { pcmk__rsc_info(rsc, "Resource %s cannot run anywhere", rsc->id); } else if ((rsc->priv->active_nodes != NULL) && stop_if_fail) { pcmk__rsc_info(rsc, "Stopping removed resource %s", rsc->id); } } pcmk__clear_rsc_flags(rsc, pcmk__rsc_assigning); if (pcmk_is_set(rsc->flags, pcmk__rsc_is_remote_connection)) { remote_connection_assigned(rsc); } return rsc->priv->assigned_node; } /*! * \internal * \brief Schedule actions to bring resource down and back to current role * * \param[in,out] rsc Resource to restart * \param[in,out] current Node that resource should be brought down on * \param[in] need_stop Whether the resource must be stopped * \param[in] need_promote Whether the resource must be promoted * * \return Role that resource would have after scheduled actions are taken */ static void schedule_restart_actions(pcmk_resource_t *rsc, pcmk_node_t *current, bool need_stop, bool need_promote) { enum rsc_role_e role = rsc->priv->orig_role; enum rsc_role_e next_role; rsc_transition_fn fn = NULL; pcmk__set_rsc_flags(rsc, pcmk__rsc_restarting); // Bring resource down to a stop on its current node while (role != pcmk_role_stopped) { next_role = rsc_state_matrix[role][pcmk_role_stopped]; pcmk__rsc_trace(rsc, "Creating %s action to take %s down from %s to %s", (need_stop? "required" : "optional"), rsc->id, pcmk_role_text(role), pcmk_role_text(next_role)); fn = rsc_action_matrix[role][next_role]; if (fn == NULL) { break; } fn(rsc, current, !need_stop); role = next_role; } // Bring resource up to its next role on its next node while ((rsc->priv->orig_role <= rsc->priv->next_role) && (role != rsc->priv->orig_role) && !pcmk_is_set(rsc->flags, pcmk__rsc_blocked)) { bool required = need_stop; next_role = rsc_state_matrix[role][rsc->priv->orig_role]; if ((next_role == pcmk_role_promoted) && need_promote) { required = true; } pcmk__rsc_trace(rsc, "Creating %s action to take %s up from %s to %s", (required? "required" : "optional"), rsc->id, pcmk_role_text(role), pcmk_role_text(next_role)); fn = rsc_action_matrix[role][next_role]; if (fn == NULL) { break; } fn(rsc, rsc->priv->assigned_node, !required); role = next_role; } pcmk__clear_rsc_flags(rsc, pcmk__rsc_restarting); } /*! * \internal * \brief If a resource's next role is not explicitly specified, set a default * * \param[in,out] rsc Resource to set next role for * * \return "explicit" if next role was explicitly set, otherwise "implicit" */ static const char * set_default_next_role(pcmk_resource_t *rsc) { if (rsc->priv->next_role != pcmk_role_unknown) { return "explicit"; } if (rsc->priv->assigned_node == NULL) { pe__set_next_role(rsc, pcmk_role_stopped, "assignment"); } else { pe__set_next_role(rsc, pcmk_role_started, "assignment"); } return "implicit"; } /*! * \internal * \brief Create an action to represent an already pending start * * \param[in,out] rsc Resource to create start action for */ static void create_pending_start(pcmk_resource_t *rsc) { pcmk_action_t *start = NULL; pcmk__rsc_trace(rsc, "Creating action for %s to represent already pending start", rsc->id); start = start_action(rsc, rsc->priv->assigned_node, TRUE); pcmk__set_action_flags(start, pcmk__action_always_in_graph); } /*! * \internal * \brief Schedule actions needed to take a resource to its next role * * \param[in,out] rsc Resource to schedule actions for */ static void schedule_role_transition_actions(pcmk_resource_t *rsc) { enum rsc_role_e role = rsc->priv->orig_role; while (role != rsc->priv->next_role) { enum rsc_role_e next_role = rsc_state_matrix[role][rsc->priv->next_role]; rsc_transition_fn fn = NULL; pcmk__rsc_trace(rsc, "Creating action to take %s from %s to %s " "(ending at %s)", rsc->id, pcmk_role_text(role), pcmk_role_text(next_role), pcmk_role_text(rsc->priv->next_role)); fn = rsc_action_matrix[role][next_role]; if (fn == NULL) { break; } fn(rsc, rsc->priv->assigned_node, false); role = next_role; } } /*! * \internal * \brief Create all actions needed for a given primitive resource * * \param[in,out] rsc Primitive resource to create actions for */ void pcmk__primitive_create_actions(pcmk_resource_t *rsc) { bool need_stop = false; bool need_promote = false; bool is_moving = false; bool allow_migrate = false; bool multiply_active = false; pcmk_node_t *current = NULL; pcmk_node_t *migration_target = NULL; unsigned int num_all_active = 0; unsigned int num_clean_active = 0; const char *next_role_source = NULL; CRM_ASSERT(pcmk__is_primitive(rsc)); next_role_source = set_default_next_role(rsc); pcmk__rsc_trace(rsc, "Creating all actions for %s transition from %s to %s " "(%s) on %s", rsc->id, pcmk_role_text(rsc->priv->orig_role), pcmk_role_text(rsc->priv->next_role), next_role_source, pcmk__node_name(rsc->priv->assigned_node)); current = rsc->priv->fns->active_node(rsc, &num_all_active, &num_clean_active); g_list_foreach(rsc->priv->dangling_migration_sources, pcmk__abort_dangling_migration, rsc); if ((current != NULL) && (rsc->priv->assigned_node != NULL) && !pcmk__same_node(current, rsc->priv->assigned_node) && (rsc->priv->next_role >= pcmk_role_started)) { pcmk__rsc_trace(rsc, "Moving %s from %s to %s", rsc->id, pcmk__node_name(current), pcmk__node_name(rsc->priv->assigned_node)); is_moving = true; allow_migrate = pcmk__rsc_can_migrate(rsc, current); // This is needed even if migrating (though I'm not sure why ...) need_stop = true; } // Check whether resource is partially migrated and/or multiply active migration_target = rsc->priv->partial_migration_target; if ((rsc->priv->partial_migration_source != NULL) && (migration_target != NULL) && allow_migrate && (num_all_active == 2) && pcmk__same_node(current, rsc->priv->partial_migration_source) && pcmk__same_node(rsc->priv->assigned_node, migration_target)) { /* A partial migration is in progress, and the migration target remains * the same as when the migration began. */ pcmk__rsc_trace(rsc, "Partial migration of %s from %s to %s will continue", rsc->id, pcmk__node_name(rsc->priv->partial_migration_source), pcmk__node_name(migration_target)); } else if ((rsc->priv->partial_migration_source != NULL) || (migration_target != NULL)) { // A partial migration is in progress but can't be continued if (num_all_active > 2) { // The resource is migrating *and* multiply active! crm_notice("Forcing recovery of %s because it is migrating " "from %s to %s and possibly active elsewhere", rsc->id, pcmk__node_name(rsc->priv->partial_migration_source), pcmk__node_name(migration_target)); } else { // The migration source or target isn't available crm_notice("Forcing recovery of %s because it can no longer " "migrate from %s to %s", rsc->id, pcmk__node_name(rsc->priv->partial_migration_source), pcmk__node_name(migration_target)); } need_stop = true; rsc->priv->partial_migration_source = NULL; rsc->priv->partial_migration_target = NULL; allow_migrate = false; } else if (pcmk_is_set(rsc->flags, pcmk__rsc_needs_fencing)) { multiply_active = (num_all_active > 1); } else { /* If a resource has PCMK_META_REQUIRES set to PCMK_VALUE_NOTHING or * PCMK_VALUE_QUORUM, don't consider it active on unclean nodes (similar * to how all resources behave when PCMK_OPT_STONITH_ENABLED is false). * We can start such resources elsewhere before fencing completes, and * if we considered the resource active on the failed node, we would * attempt recovery for being active on multiple nodes. */ multiply_active = (num_clean_active > 1); } if (multiply_active) { const char *class = crm_element_value(rsc->priv->xml, PCMK_XA_CLASS); // Resource was (possibly) incorrectly multiply active pcmk__sched_err(rsc->priv->scheduler, "%s resource %s might be active on %u nodes (%s)", pcmk__s(class, "Untyped"), rsc->id, num_all_active, pcmk__multiply_active_text(rsc)); crm_notice("For more information, see \"What are multiply active " "resources?\" at " "https://projects.clusterlabs.org/w/clusterlabs/faq/"); switch (rsc->priv->multiply_active_policy) { case pcmk__multiply_active_restart: need_stop = true; break; case pcmk__multiply_active_unexpected: need_stop = true; // stop_resource() will skip expected node pcmk__set_rsc_flags(rsc, pcmk__rsc_stop_unexpected); break; default: break; } } else { pcmk__clear_rsc_flags(rsc, pcmk__rsc_stop_unexpected); } if (pcmk_is_set(rsc->flags, pcmk__rsc_start_pending)) { create_pending_start(rsc); } if (is_moving) { // Remaining tests are only for resources staying where they are } else if (pcmk_is_set(rsc->flags, pcmk__rsc_failed)) { if (pcmk_is_set(rsc->flags, pcmk__rsc_stop_if_failed)) { need_stop = true; pcmk__rsc_trace(rsc, "Recovering %s", rsc->id); } else { pcmk__rsc_trace(rsc, "Recovering %s by demotion", rsc->id); if (rsc->priv->next_role == pcmk_role_promoted) { need_promote = true; } } } else if (pcmk_is_set(rsc->flags, pcmk__rsc_blocked)) { pcmk__rsc_trace(rsc, "Blocking further actions on %s", rsc->id); need_stop = true; } else if ((rsc->priv->orig_role > pcmk_role_started) && (current != NULL) && (rsc->priv->assigned_node != NULL)) { pcmk_action_t *start = NULL; pcmk__rsc_trace(rsc, "Creating start action for promoted resource %s", rsc->id); start = start_action(rsc, rsc->priv->assigned_node, TRUE); if (!pcmk_is_set(start->flags, pcmk__action_optional)) { // Recovery of a promoted resource pcmk__rsc_trace(rsc, "%s restart is required for recovery", rsc->id); need_stop = true; } } // Create any actions needed to bring resource down and back up to same role schedule_restart_actions(rsc, current, need_stop, need_promote); // Create any actions needed to take resource from this role to the next schedule_role_transition_actions(rsc); pcmk__create_recurring_actions(rsc); if (allow_migrate) { pcmk__create_migration_actions(rsc, current); } } /*! * \internal * \brief Ban a resource from any allowed nodes that are Pacemaker Remote nodes * * \param[in] rsc Resource to check */ static void rsc_avoids_remote_nodes(const pcmk_resource_t *rsc) { GHashTableIter iter; pcmk_node_t *node = NULL; g_hash_table_iter_init(&iter, rsc->priv->allowed_nodes); while (g_hash_table_iter_next(&iter, NULL, (void **) &node)) { if (node->priv->remote != NULL) { node->assign->score = -PCMK_SCORE_INFINITY; } } } /*! * \internal * \brief Return allowed nodes as (possibly sorted) list * * Convert a resource's hash table of allowed nodes to a list. If printing to * stdout, sort the list, to keep action ID numbers consistent for regression * test output (while avoiding the performance hit on a live cluster). * * \param[in] rsc Resource to check for allowed nodes * * \return List of resource's allowed nodes * \note Callers should take care not to rely on the list being sorted. */ static GList * allowed_nodes_as_list(const pcmk_resource_t *rsc) { GList *allowed_nodes = NULL; if (rsc->priv->allowed_nodes != NULL) { allowed_nodes = g_hash_table_get_values(rsc->priv->allowed_nodes); } if (!pcmk__is_daemon) { allowed_nodes = g_list_sort(allowed_nodes, pe__cmp_node_name); } return allowed_nodes; } /*! * \internal * \brief Create implicit constraints needed for a primitive resource * * \param[in,out] rsc Primitive resource to create implicit constraints for */ void pcmk__primitive_internal_constraints(pcmk_resource_t *rsc) { GList *allowed_nodes = NULL; bool check_unfencing = false; bool check_utilization = false; pcmk_scheduler_t *scheduler = NULL; CRM_ASSERT(pcmk__is_primitive(rsc)); scheduler = rsc->priv->scheduler; if (!pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { pcmk__rsc_trace(rsc, "Skipping implicit constraints for unmanaged resource " "%s", rsc->id); return; } // Whether resource requires unfencing check_unfencing = !pcmk_is_set(rsc->flags, pcmk__rsc_fence_device) && pcmk_is_set(scheduler->flags, pcmk__sched_enable_unfencing) && pcmk_is_set(rsc->flags, pcmk__rsc_needs_unfencing); // Whether a non-default placement strategy is used check_utilization = (g_hash_table_size(rsc->priv->utilization) > 0) && !pcmk__str_eq(scheduler->priv->placement_strategy, PCMK_VALUE_DEFAULT, pcmk__str_casei); // Order stops before starts (i.e. restart) pcmk__new_ordering(rsc, pcmk__op_key(rsc->id, PCMK_ACTION_STOP, 0), NULL, rsc, pcmk__op_key(rsc->id, PCMK_ACTION_START, 0), NULL, pcmk__ar_ordered |pcmk__ar_first_implies_then |pcmk__ar_intermediate_stop, scheduler); // Promotable ordering: demote before stop, start before promote if (pcmk_is_set(pe__const_top_resource(rsc, false)->flags, pcmk__rsc_promotable) || (rsc->priv->orig_role > pcmk_role_unpromoted)) { pcmk__new_ordering(rsc, pcmk__op_key(rsc->id, PCMK_ACTION_DEMOTE, 0), NULL, rsc, pcmk__op_key(rsc->id, PCMK_ACTION_STOP, 0), NULL, pcmk__ar_promoted_then_implies_first, scheduler); pcmk__new_ordering(rsc, pcmk__op_key(rsc->id, PCMK_ACTION_START, 0), NULL, rsc, pcmk__op_key(rsc->id, PCMK_ACTION_PROMOTE, 0), NULL, pcmk__ar_unrunnable_first_blocks, scheduler); } // Don't clear resource history if probing on same node pcmk__new_ordering(rsc, pcmk__op_key(rsc->id, PCMK_ACTION_LRM_DELETE, 0), NULL, rsc, pcmk__op_key(rsc->id, PCMK_ACTION_MONITOR, 0), NULL, pcmk__ar_if_on_same_node|pcmk__ar_then_cancels_first, scheduler); // Certain checks need allowed nodes if (check_unfencing || check_utilization || (rsc->priv->launcher != NULL)) { allowed_nodes = allowed_nodes_as_list(rsc); } if (check_unfencing) { g_list_foreach(allowed_nodes, pcmk__order_restart_vs_unfence, rsc); } if (check_utilization) { pcmk__create_utilization_constraints(rsc, allowed_nodes); } if (rsc->priv->launcher != NULL) { pcmk_resource_t *remote_rsc = NULL; if (pcmk_is_set(rsc->flags, pcmk__rsc_is_remote_connection)) { // rsc is the implicit remote connection for a guest or bundle node /* Guest resources are not allowed to run on Pacemaker Remote nodes, * to avoid nesting remotes. However, bundles are allowed. */ if (!pcmk_is_set(rsc->flags, pcmk__rsc_remote_nesting_allowed)) { rsc_avoids_remote_nodes(rsc->priv->launcher); } /* If someone cleans up a guest or bundle node's launcher, we will * likely schedule a (re-)probe of the launcher and recovery of the * connection. Order the connection stop after the launcher probe, * so that if we detect the launcher running, we will trigger a new * transition and avoid the unnecessary recovery. */ pcmk__order_resource_actions(rsc->priv->launcher, PCMK_ACTION_MONITOR, rsc, PCMK_ACTION_STOP, pcmk__ar_ordered); /* A user can specify that a resource must start on a Pacemaker Remote * node by explicitly configuring it with the PCMK__META_CONTAINER * meta-attribute. This is of questionable merit, since location * constraints can accomplish the same thing. But we support it, so here * we check whether a resource (that is not itself a remote connection) * has PCMK__META_CONTAINER set to a remote node or guest node resource. */ } else if (pcmk_is_set(rsc->priv->launcher->flags, pcmk__rsc_is_remote_connection)) { remote_rsc = rsc->priv->launcher; } else { remote_rsc = pe__resource_contains_guest_node(scheduler, rsc->priv->launcher); } if (remote_rsc != NULL) { /* Force the resource on the Pacemaker Remote node instead of * colocating the resource with the launcher. */ for (GList *item = allowed_nodes; item; item = item->next) { pcmk_node_t *node = item->data; if (node->priv->remote != remote_rsc) { node->assign->score = -PCMK_SCORE_INFINITY; } } } else { /* This resource is either launched by a resource that does NOT * represent a Pacemaker Remote node, or a Pacemaker Remote * connection resource for a guest node or bundle. */ int score; crm_trace("Order and colocate %s relative to its launcher %s", rsc->id, rsc->priv->launcher->id); pcmk__new_ordering(rsc->priv->launcher, pcmk__op_key(rsc->priv->launcher->id, PCMK_ACTION_START, 0), NULL, rsc, pcmk__op_key(rsc->id, PCMK_ACTION_START, 0), NULL, pcmk__ar_first_implies_then |pcmk__ar_unrunnable_first_blocks, scheduler); pcmk__new_ordering(rsc, pcmk__op_key(rsc->id, PCMK_ACTION_STOP, 0), NULL, rsc->priv->launcher, pcmk__op_key(rsc->priv->launcher->id, PCMK_ACTION_STOP, 0), NULL, pcmk__ar_then_implies_first, scheduler); if (pcmk_is_set(rsc->flags, pcmk__rsc_remote_nesting_allowed)) { score = 10000; /* Highly preferred but not essential */ } else { score = PCMK_SCORE_INFINITY; // Force to run on same host } pcmk__new_colocation("#resource-with-container", NULL, score, rsc, rsc->priv->launcher, NULL, NULL, pcmk__coloc_influence); } } if (pcmk_is_set(rsc->flags, pcmk__rsc_is_remote_connection) || pcmk_is_set(rsc->flags, pcmk__rsc_fence_device)) { /* Remote connections and fencing devices are not allowed to run on * Pacemaker Remote nodes */ rsc_avoids_remote_nodes(rsc); } g_list_free(allowed_nodes); } /*! * \internal * \brief Apply a colocation's score to node scores or resource priority * * Given a colocation constraint, apply its score to the dependent's * allowed node scores (if we are still placing resources) or priority (if * we are choosing promotable clone instance roles). * * \param[in,out] dependent Dependent resource in colocation * \param[in] primary Primary resource in colocation * \param[in] colocation Colocation constraint to apply * \param[in] for_dependent true if called on behalf of dependent * * \return The score added to the dependent's priority */ int pcmk__primitive_apply_coloc_score(pcmk_resource_t *dependent, const pcmk_resource_t *primary, const pcmk__colocation_t *colocation, bool for_dependent) { enum pcmk__coloc_affects filter_results; CRM_ASSERT((dependent != NULL) && (primary != NULL) && (colocation != NULL)); if (for_dependent) { // Always process on behalf of primary resource return primary->priv->cmds->apply_coloc_score(dependent, primary, colocation, false); } filter_results = pcmk__colocation_affects(dependent, primary, colocation, false); pcmk__rsc_trace(dependent, "%s %s with %s (%s, score=%d, filter=%d)", ((colocation->score > 0)? "Colocating" : "Anti-colocating"), dependent->id, primary->id, colocation->id, colocation->score, filter_results); switch (filter_results) { case pcmk__coloc_affects_role: return pcmk__apply_coloc_to_priority(dependent, primary, colocation); case pcmk__coloc_affects_location: pcmk__apply_coloc_to_scores(dependent, primary, colocation); return 0; default: // pcmk__coloc_affects_nothing return 0; } } /* Primitive implementation of * pcmk__assignment_methods_t:with_this_colocations() */ void pcmk__with_primitive_colocations(const pcmk_resource_t *rsc, const pcmk_resource_t *orig_rsc, GList **list) { const pcmk_resource_t *parent = NULL; CRM_ASSERT(pcmk__is_primitive(rsc) && (list != NULL)); parent = rsc->priv->parent; if (rsc == orig_rsc) { /* For the resource itself, add all of its own colocations and relevant * colocations from its parent (if any). */ pcmk__add_with_this_list(list, rsc->priv->with_this_colocations, orig_rsc); if (parent != NULL) { parent->priv->cmds->with_this_colocations(parent, orig_rsc, list); } } else { // For an ancestor, add only explicitly configured constraints for (GList *iter = rsc->priv->with_this_colocations; iter != NULL; iter = iter->next) { pcmk__colocation_t *colocation = iter->data; if (pcmk_is_set(colocation->flags, pcmk__coloc_explicit)) { pcmk__add_with_this(list, colocation, orig_rsc); } } } } /* Primitive implementation of * pcmk__assignment_methods_t:this_with_colocations() */ void pcmk__primitive_with_colocations(const pcmk_resource_t *rsc, const pcmk_resource_t *orig_rsc, GList **list) { const pcmk_resource_t *parent = NULL; CRM_ASSERT(pcmk__is_primitive(rsc) && (list != NULL)); parent = rsc->priv->parent; if (rsc == orig_rsc) { /* For the resource itself, add all of its own colocations and relevant * colocations from its parent (if any). */ pcmk__add_this_with_list(list, rsc->priv->this_with_colocations, orig_rsc); if (parent != NULL) { parent->priv->cmds->this_with_colocations(parent, orig_rsc, list); } } else { // For an ancestor, add only explicitly configured constraints for (GList *iter = rsc->priv->this_with_colocations; iter != NULL; iter = iter->next) { pcmk__colocation_t *colocation = iter->data; if (pcmk_is_set(colocation->flags, pcmk__coloc_explicit)) { pcmk__add_this_with(list, colocation, orig_rsc); } } } } /*! * \internal * \brief Return action flags for a given primitive resource action * * \param[in,out] action Action to get flags for * \param[in] node If not NULL, limit effects to this node (ignored) * * \return Flags appropriate to \p action on \p node */ uint32_t pcmk__primitive_action_flags(pcmk_action_t *action, const pcmk_node_t *node) { CRM_ASSERT(action != NULL); return (uint32_t) action->flags; } /*! * \internal * \brief Check whether a node is a multiply active resource's expected node * * \param[in] rsc Resource to check * \param[in] node Node to check * * \return \c true if \p rsc is multiply active with * \c PCMK_META_MULTIPLE_ACTIVE set to \c PCMK_VALUE_STOP_UNEXPECTED, * and \p node is the node where it will remain active * \note This assumes that the resource's next role cannot be changed to stopped * after this is called, which should be reasonable if status has already * been unpacked and resources have been assigned to nodes. */ static bool is_expected_node(const pcmk_resource_t *rsc, const pcmk_node_t *node) { return pcmk_all_flags_set(rsc->flags, pcmk__rsc_stop_unexpected|pcmk__rsc_restarting) && (rsc->priv->next_role > pcmk_role_stopped) && pcmk__same_node(rsc->priv->assigned_node, node); } /*! * \internal * \brief Schedule actions needed to stop a resource wherever it is active * * \param[in,out] rsc Resource being stopped * \param[in] node Node where resource is being stopped (ignored) * \param[in] optional Whether actions should be optional */ static void stop_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional) { for (GList *iter = rsc->priv->active_nodes; iter != NULL; iter = iter->next) { pcmk_node_t *current = (pcmk_node_t *) iter->data; pcmk_action_t *stop = NULL; if (is_expected_node(rsc, current)) { /* We are scheduling restart actions for a multiply active resource * with PCMK_META_MULTIPLE_ACTIVE=PCMK_VALUE_STOP_UNEXPECTED, and * this is where it should not be stopped. */ pcmk__rsc_trace(rsc, "Skipping stop of multiply active resource %s " "on expected node %s", rsc->id, pcmk__node_name(current)); continue; } if (rsc->priv->partial_migration_target != NULL) { // Continue migration if node originally was and remains target if (pcmk__same_node(current, rsc->priv->partial_migration_target) && pcmk__same_node(current, rsc->priv->assigned_node)) { pcmk__rsc_trace(rsc, "Skipping stop of %s on %s " "because partial migration there will continue", rsc->id, pcmk__node_name(current)); continue; } else { pcmk__rsc_trace(rsc, "Forcing stop of %s on %s " "because migration target changed", rsc->id, pcmk__node_name(current)); optional = false; } } pcmk__rsc_trace(rsc, "Scheduling stop of %s on %s", rsc->id, pcmk__node_name(current)); stop = stop_action(rsc, current, optional); if (rsc->priv->assigned_node == NULL) { pe_action_set_reason(stop, "node availability", true); } else if (pcmk_all_flags_set(rsc->flags, pcmk__rsc_restarting |pcmk__rsc_stop_unexpected)) { /* We are stopping a multiply active resource on a node that is * not its expected node, and we are still scheduling restart * actions, so the stop is for being multiply active. */ pe_action_set_reason(stop, "being multiply active", true); } if (!pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { pcmk__clear_action_flags(stop, pcmk__action_runnable); } if (pcmk_is_set(rsc->priv->scheduler->flags, pcmk__sched_remove_after_stop)) { pcmk__schedule_cleanup(rsc, current, optional); } if (pcmk_is_set(rsc->flags, pcmk__rsc_needs_unfencing)) { pcmk_action_t *unfence = pe_fence_op(current, PCMK_ACTION_ON, true, NULL, false, rsc->priv->scheduler); order_actions(stop, unfence, pcmk__ar_then_implies_first); if (!pcmk__node_unfenced(current)) { pcmk__sched_err(rsc->priv->scheduler, "Stopping %s until %s can be unfenced", rsc->id, pcmk__node_name(current)); } } } } /*! * \internal * \brief Schedule actions needed to start a resource on a node * * \param[in,out] rsc Resource being started * \param[in,out] node Node where resource should be started * \param[in] optional Whether actions should be optional */ static void start_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional) { pcmk_action_t *start = NULL; CRM_ASSERT(node != NULL); pcmk__rsc_trace(rsc, "Scheduling %s start of %s on %s (score %d)", (optional? "optional" : "required"), rsc->id, pcmk__node_name(node), node->assign->score); start = start_action(rsc, node, TRUE); pcmk__order_vs_unfence(rsc, node, start, pcmk__ar_first_implies_then); if (pcmk_is_set(start->flags, pcmk__action_runnable) && !optional) { pcmk__clear_action_flags(start, pcmk__action_optional); } if (is_expected_node(rsc, node)) { /* This could be a problem if the start becomes necessary for other * reasons later. */ pcmk__rsc_trace(rsc, "Start of multiply active resouce %s " "on expected node %s will be a pseudo-action", rsc->id, pcmk__node_name(node)); pcmk__set_action_flags(start, pcmk__action_pseudo); } } /*! * \internal * \brief Schedule actions needed to promote a resource on a node * * \param[in,out] rsc Resource being promoted * \param[in] node Node where resource should be promoted * \param[in] optional Whether actions should be optional */ static void promote_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional) { GList *iter = NULL; GList *action_list = NULL; bool runnable = true; CRM_ASSERT(node != NULL); // Any start must be runnable for promotion to be runnable action_list = pe__resource_actions(rsc, node, PCMK_ACTION_START, true); for (iter = action_list; iter != NULL; iter = iter->next) { pcmk_action_t *start = (pcmk_action_t *) iter->data; if (!pcmk_is_set(start->flags, pcmk__action_runnable)) { runnable = false; } } g_list_free(action_list); if (runnable) { pcmk_action_t *promote = promote_action(rsc, node, optional); pcmk__rsc_trace(rsc, "Scheduling %s promotion of %s on %s", (optional? "optional" : "required"), rsc->id, pcmk__node_name(node)); if (is_expected_node(rsc, node)) { /* This could be a problem if the promote becomes necessary for * other reasons later. */ pcmk__rsc_trace(rsc, "Promotion of multiply active resouce %s " "on expected node %s will be a pseudo-action", rsc->id, pcmk__node_name(node)); pcmk__set_action_flags(promote, pcmk__action_pseudo); } } else { pcmk__rsc_trace(rsc, "Not promoting %s on %s: start unrunnable", rsc->id, pcmk__node_name(node)); action_list = pe__resource_actions(rsc, node, PCMK_ACTION_PROMOTE, true); for (iter = action_list; iter != NULL; iter = iter->next) { pcmk_action_t *promote = (pcmk_action_t *) iter->data; pcmk__clear_action_flags(promote, pcmk__action_runnable); } g_list_free(action_list); } } /*! * \internal * \brief Schedule actions needed to demote a resource wherever it is active * * \param[in,out] rsc Resource being demoted * \param[in] node Node where resource should be demoted (ignored) * \param[in] optional Whether actions should be optional */ static void demote_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional) { /* Since this will only be called for a primitive (possibly as an instance * of a collective resource), the resource is multiply active if it is * running on more than one node, so we want to demote on all of them as * part of recovery, regardless of which one is the desired node. */ for (GList *iter = rsc->priv->active_nodes; iter != NULL; iter = iter->next) { pcmk_node_t *current = (pcmk_node_t *) iter->data; if (is_expected_node(rsc, current)) { pcmk__rsc_trace(rsc, "Skipping demote of multiply active resource %s " "on expected node %s", rsc->id, pcmk__node_name(current)); } else { pcmk__rsc_trace(rsc, "Scheduling %s demotion of %s on %s", (optional? "optional" : "required"), rsc->id, pcmk__node_name(current)); demote_action(rsc, current, optional); } } } static void assert_role_error(pcmk_resource_t *rsc, pcmk_node_t *node, bool optional) { CRM_ASSERT(false); } /*! * \internal * \brief Schedule cleanup of a resource * * \param[in,out] rsc Resource to clean up * \param[in] node Node to clean up on * \param[in] optional Whether clean-up should be optional */ void pcmk__schedule_cleanup(pcmk_resource_t *rsc, const pcmk_node_t *node, bool optional) { /* If the cleanup is required, its orderings are optional, because they're * relevant only if both actions are required. Conversely, if the cleanup is * optional, the orderings make the then action required if the first action * becomes required. */ uint32_t flag = optional? pcmk__ar_first_implies_then : pcmk__ar_ordered; CRM_CHECK((rsc != NULL) && (node != NULL), return); if (pcmk_is_set(rsc->flags, pcmk__rsc_failed)) { pcmk__rsc_trace(rsc, "Skipping clean-up of %s on %s: resource failed", rsc->id, pcmk__node_name(node)); return; } if (node->details->unclean || !node->details->online) { pcmk__rsc_trace(rsc, "Skipping clean-up of %s on %s: node unavailable", rsc->id, pcmk__node_name(node)); return; } crm_notice("Scheduling clean-up of %s on %s", rsc->id, pcmk__node_name(node)); delete_action(rsc, node, optional); // stop -> clean-up -> start pcmk__order_resource_actions(rsc, PCMK_ACTION_STOP, rsc, PCMK_ACTION_DELETE, flag); pcmk__order_resource_actions(rsc, PCMK_ACTION_DELETE, rsc, PCMK_ACTION_START, flag); } /*! * \internal * \brief Add primitive meta-attributes relevant to graph actions to XML * * \param[in] rsc Primitive resource whose meta-attributes should be added * \param[in,out] xml Transition graph action attributes XML to add to */ void pcmk__primitive_add_graph_meta(const pcmk_resource_t *rsc, xmlNode *xml) { char *name = NULL; char *value = NULL; const pcmk_resource_t *parent = NULL; CRM_ASSERT(pcmk__is_primitive(rsc) && (xml != NULL)); /* Clone instance numbers get set internally as meta-attributes, and are * needed in the transition graph (for example, to tell unique clone * instances apart). */ value = g_hash_table_lookup(rsc->priv->meta, PCMK__META_CLONE); if (value != NULL) { name = crm_meta_name(PCMK__META_CLONE); crm_xml_add(xml, name, value); free(name); } // Not sure if this one is really needed ... value = g_hash_table_lookup(rsc->priv->meta, PCMK_META_REMOTE_NODE); if (value != NULL) { name = crm_meta_name(PCMK_META_REMOTE_NODE); crm_xml_add(xml, name, value); free(name); } /* The PCMK__META_CONTAINER meta-attribute can be set on the primitive * itself or one of its ancestors, so check them all and keep the highest. */ for (parent = rsc; parent != NULL; parent = parent->priv->parent) { if (parent->priv->launcher != NULL) { crm_xml_add(xml, CRM_META "_" PCMK__META_CONTAINER, parent->priv->launcher->id); } } /* Bundle replica children will get their external-ip set internally as a * meta-attribute. The graph action needs it, but under a different naming * convention than other meta-attributes. */ value = g_hash_table_lookup(rsc->priv->meta, "external-ip"); if (value != NULL) { crm_xml_add(xml, "pcmk_external_ip", value); } } // Primitive implementation of pcmk__assignment_methods_t:add_utilization() void pcmk__primitive_add_utilization(const pcmk_resource_t *rsc, const pcmk_resource_t *orig_rsc, GList *all_rscs, GHashTable *utilization) { CRM_ASSERT(pcmk__is_primitive(rsc) && (orig_rsc != NULL) && (utilization != NULL)); if (!pcmk_is_set(rsc->flags, pcmk__rsc_unassigned)) { return; } pcmk__rsc_trace(orig_rsc, "%s: Adding primitive %s as colocated utilization", orig_rsc->id, rsc->id); pcmk__release_node_capacity(utilization, rsc); } /*! * \internal * \brief Get epoch time of node's shutdown attribute (or now if none) * * \param[in,out] node Node to check * * \return Epoch time corresponding to shutdown attribute if set or now if not */ static time_t shutdown_time(pcmk_node_t *node) { const char *shutdown = pcmk__node_attr(node, PCMK__NODE_ATTR_SHUTDOWN, NULL, pcmk__rsc_node_current); time_t result = 0; if (shutdown != NULL) { long long result_ll; + int rc = pcmk__scan_ll(shutdown, &result_ll, 0LL); - if (pcmk__scan_ll(shutdown, &result_ll, 0LL) == pcmk_rc_ok) { + if (rc == pcmk_rc_ok) { result = (time_t) result_ll; + } else { + crm_warn("Ignoring invalid value '%s' for %s " + PCMK__NODE_ATTR_SHUTDOWN " attribute: %s", + shutdown, pcmk__node_name(node), pcmk_rc_str(rc)); } } return (result == 0)? get_effective_time(node->priv->scheduler) : result; } /*! * \internal * \brief Ban a resource from a node if it's not locked to the node * * \param[in] data Node to check * \param[in,out] user_data Resource to check */ static void ban_if_not_locked(gpointer data, gpointer user_data) { const pcmk_node_t *node = (const pcmk_node_t *) data; pcmk_resource_t *rsc = (pcmk_resource_t *) user_data; if (!pcmk__same_node(node, rsc->priv->lock_node)) { resource_location(rsc, node, -PCMK_SCORE_INFINITY, PCMK_OPT_SHUTDOWN_LOCK, rsc->priv->scheduler); } } // Primitive implementation of pcmk__assignment_methods_t:shutdown_lock() void pcmk__primitive_shutdown_lock(pcmk_resource_t *rsc) { pcmk_scheduler_t *scheduler = NULL; CRM_ASSERT(pcmk__is_primitive(rsc)); scheduler = rsc->priv->scheduler; // Fence devices and remote connections can't be locked if (pcmk_any_flags_set(rsc->flags, pcmk__rsc_fence_device |pcmk__rsc_is_remote_connection)) { return; } if (rsc->priv->lock_node != NULL) { // The lock was obtained from resource history if (rsc->priv->active_nodes != NULL) { /* The resource was started elsewhere even though it is now * considered locked. This shouldn't be possible, but as a * failsafe, we don't want to disturb the resource now. */ pcmk__rsc_info(rsc, "Cancelling shutdown lock " "because %s is already active", rsc->id); pe__clear_resource_history(rsc, rsc->priv->lock_node); rsc->priv->lock_node = NULL; rsc->priv->lock_time = 0; } // Only a resource active on exactly one node can be locked } else if (pcmk__list_of_1(rsc->priv->active_nodes)) { pcmk_node_t *node = rsc->priv->active_nodes->data; if (node->details->shutdown) { if (node->details->unclean) { pcmk__rsc_debug(rsc, "Not locking %s to unclean %s for shutdown", rsc->id, pcmk__node_name(node)); } else { rsc->priv->lock_node = node; rsc->priv->lock_time = shutdown_time(node); } } } if (rsc->priv->lock_node == NULL) { // No lock needed return; } if (scheduler->priv->shutdown_lock_ms > 0U) { time_t lock_expiration = rsc->priv->lock_time + (scheduler->priv->shutdown_lock_ms / 1000U); pcmk__rsc_info(rsc, "Locking %s to %s due to shutdown (expires @%lld)", rsc->id, pcmk__node_name(rsc->priv->lock_node), (long long) lock_expiration); pe__update_recheck_time(++lock_expiration, scheduler, "shutdown lock expiration"); } else { pcmk__rsc_info(rsc, "Locking %s to %s due to shutdown", rsc->id, pcmk__node_name(rsc->priv->lock_node)); } // If resource is locked to one node, ban it from all other nodes g_list_foreach(scheduler->nodes, ban_if_not_locked, rsc); } diff --git a/lib/pengine/failcounts.c b/lib/pengine/failcounts.c index f4d3de14ed..7f12da9df0 100644 --- a/lib/pengine/failcounts.c +++ b/lib/pengine/failcounts.c @@ -1,467 +1,470 @@ /* * Copyright 2008-2024 the Pacemaker project contributors * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include #include #include #include #include #include #include static gboolean is_matched_failure(const char *rsc_id, const xmlNode *conf_op_xml, const xmlNode *lrm_op_xml) { gboolean matched = FALSE; const char *conf_op_name = NULL; const char *lrm_op_task = NULL; const char *conf_op_interval_spec = NULL; guint conf_op_interval_ms = 0; guint lrm_op_interval_ms = 0; const char *lrm_op_id = NULL; char *last_failure_key = NULL; if (rsc_id == NULL || conf_op_xml == NULL || lrm_op_xml == NULL) { return FALSE; } // Get name and interval from configured op conf_op_name = crm_element_value(conf_op_xml, PCMK_XA_NAME); conf_op_interval_spec = crm_element_value(conf_op_xml, PCMK_META_INTERVAL); pcmk_parse_interval_spec(conf_op_interval_spec, &conf_op_interval_ms); // Get name and interval from op history entry lrm_op_task = crm_element_value(lrm_op_xml, PCMK_XA_OPERATION); crm_element_value_ms(lrm_op_xml, PCMK_META_INTERVAL, &lrm_op_interval_ms); if ((conf_op_interval_ms != lrm_op_interval_ms) || !pcmk__str_eq(conf_op_name, lrm_op_task, pcmk__str_casei)) { return FALSE; } lrm_op_id = pcmk__xe_id(lrm_op_xml); last_failure_key = pcmk__op_key(rsc_id, "last_failure", 0); if (pcmk__str_eq(last_failure_key, lrm_op_id, pcmk__str_casei)) { matched = TRUE; } else { char *expected_op_key = pcmk__op_key(rsc_id, conf_op_name, conf_op_interval_ms); if (pcmk__str_eq(expected_op_key, lrm_op_id, pcmk__str_casei)) { int rc = 0; int target_rc = pe__target_rc_from_xml(lrm_op_xml); crm_element_value_int(lrm_op_xml, PCMK__XA_RC_CODE, &rc); if (rc != target_rc) { matched = TRUE; } } free(expected_op_key); } free(last_failure_key); return matched; } static gboolean block_failure(const pcmk_node_t *node, pcmk_resource_t *rsc, const xmlNode *xml_op) { char *xml_name = clone_strip(rsc->id); /* @TODO This xpath search occurs after template expansion, but it is unable * to properly detect on-fail in id-ref, operation meta-attributes, or * op_defaults, or evaluate rules. * * Also, PCMK_META_ON_FAIL defaults to PCMK_VALUE_BLOCK (in * unpack_operation()) for stop actions when stonith is disabled. * * Ideally, we'd unpack the operation before this point, and pass in a * meta-attributes table that takes all that into consideration. */ char *xpath = crm_strdup_printf("//" PCMK_XE_PRIMITIVE "[@" PCMK_XA_ID "='%s']" "//" PCMK_XE_OP "[@" PCMK_META_ON_FAIL "='" PCMK_VALUE_BLOCK "']", xml_name); xmlXPathObject *xpathObj = xpath_search(rsc->priv->xml, xpath); gboolean should_block = FALSE; free(xpath); if (xpathObj) { int max = numXpathResults(xpathObj); int lpc = 0; for (lpc = 0; lpc < max; lpc++) { xmlNode *pref = getXpathResult(xpathObj, lpc); if (xml_op) { should_block = is_matched_failure(xml_name, pref, xml_op); if (should_block) { break; } } else { const char *conf_op_name = NULL; const char *conf_op_interval_spec = NULL; guint conf_op_interval_ms = 0; char *lrm_op_xpath = NULL; xmlXPathObject *lrm_op_xpathObj = NULL; // Get name and interval from configured op conf_op_name = crm_element_value(pref, PCMK_XA_NAME); conf_op_interval_spec = crm_element_value(pref, PCMK_META_INTERVAL); pcmk_parse_interval_spec(conf_op_interval_spec, &conf_op_interval_ms); #define XPATH_FMT "//" PCMK__XE_NODE_STATE "[@" PCMK_XA_UNAME "='%s']" \ "//" PCMK__XE_LRM_RESOURCE "[@" PCMK_XA_ID "='%s']" \ "/" PCMK__XE_LRM_RSC_OP "[@" PCMK_XA_OPERATION "='%s']" \ "[@" PCMK_META_INTERVAL "='%u']" lrm_op_xpath = crm_strdup_printf(XPATH_FMT, node->priv->name, xml_name, conf_op_name, conf_op_interval_ms); lrm_op_xpathObj = xpath_search(rsc->priv->scheduler->input, lrm_op_xpath); free(lrm_op_xpath); if (lrm_op_xpathObj) { int max2 = numXpathResults(lrm_op_xpathObj); int lpc2 = 0; for (lpc2 = 0; lpc2 < max2; lpc2++) { xmlNode *lrm_op_xml = getXpathResult(lrm_op_xpathObj, lpc2); should_block = is_matched_failure(xml_name, pref, lrm_op_xml); if (should_block) { break; } } } freeXpathObject(lrm_op_xpathObj); if (should_block) { break; } } } } free(xml_name); freeXpathObject(xpathObj); return should_block; } /*! * \internal * \brief Get resource name as used in failure-related node attributes * * \param[in] rsc Resource to check * * \return Newly allocated string containing resource's fail name * \note The caller is responsible for freeing the result. */ static inline char * rsc_fail_name(const pcmk_resource_t *rsc) { const char *name = pcmk__s(rsc->priv->history_id, rsc->id); return pcmk_is_set(rsc->flags, pcmk__rsc_unique)? strdup(name) : clone_strip(name); } /*! * \internal * \brief Compile regular expression to match a failure-related node attribute * * \param[in] prefix Attribute prefix to match * \param[in] rsc_name Resource name to match as used in failure attributes * \param[in] is_unique Whether the resource is a globally unique clone * \param[out] re Where to store resulting regular expression * * \return Standard Pacemaker return code * \note Fail attributes are named like PREFIX-RESOURCE#OP_INTERVAL. * The caller is responsible for freeing re with regfree(). */ static int generate_fail_regex(const char *prefix, const char *rsc_name, bool is_unique, regex_t *re) { char *pattern = NULL; const char *op_pattern = "#.+_[0-9]+"; /* Ignore instance numbers for anything other than globally unique clones. * Anonymous clone fail counts could contain an instance number if the * clone was initially unique, failed, then was converted to anonymous. */ const char *instance_pattern = (is_unique? "" : "(:[0-9]+)?"); pattern = crm_strdup_printf("^%s-%s%s%s$", prefix, rsc_name, instance_pattern, op_pattern); if (regcomp(re, pattern, REG_EXTENDED|REG_NOSUB) != 0) { free(pattern); return EINVAL; } free(pattern); return pcmk_rc_ok; } /*! * \internal * \brief Compile regular expressions to match failure-related node attributes * * \param[in] rsc Resource being checked for failures * \param[out] failcount_re Storage for regular expression for fail count * \param[out] lastfailure_re Storage for regular expression for last failure * * \return Standard Pacemaker return code * \note On success, the caller is responsible for freeing the expressions with * regfree(). */ static int generate_fail_regexes(const pcmk_resource_t *rsc, regex_t *failcount_re, regex_t *lastfailure_re) { int rc = pcmk_rc_ok; char *rsc_name = rsc_fail_name(rsc); if (generate_fail_regex(PCMK__FAIL_COUNT_PREFIX, rsc_name, pcmk_is_set(rsc->flags, pcmk__rsc_unique), failcount_re) != pcmk_rc_ok) { rc = EINVAL; } else if (generate_fail_regex(PCMK__LAST_FAILURE_PREFIX, rsc_name, pcmk_is_set(rsc->flags, pcmk__rsc_unique), lastfailure_re) != pcmk_rc_ok) { rc = EINVAL; regfree(failcount_re); } free(rsc_name); return rc; } // Data for fail-count-related iterators struct failcount_data { const pcmk_node_t *node;// Node to check for fail count pcmk_resource_t *rsc; // Resource to check for fail count uint32_t flags; // Fail count flags const xmlNode *xml_op; // History entry for expiration purposes (or NULL) regex_t failcount_re; // Fail count regular expression to match regex_t lastfailure_re; // Last failure regular expression to match int failcount; // Fail count so far time_t last_failure; // Time of most recent failure so far }; /*! * \internal * \brief Update fail count and last failure appropriately for a node attribute * * \param[in] key Node attribute name * \param[in] value Node attribute value * \param[in] user_data Fail count data to update */ static void update_failcount_for_attr(gpointer key, gpointer value, gpointer user_data) { struct failcount_data *fc_data = user_data; // If this is a matching fail count attribute, update fail count if (regexec(&(fc_data->failcount_re), (const char *) key, 0, NULL, 0) == 0) { fc_data->failcount = pcmk__add_scores(fc_data->failcount, char2score(value)); pcmk__rsc_trace(fc_data->rsc, "Added %s (%s) to %s fail count (now %s)", (const char *) key, (const char *) value, fc_data->rsc->id, pcmk_readable_score(fc_data->failcount)); return; } // If this is a matching last failure attribute, update last failure if (regexec(&(fc_data->lastfailure_re), (const char *) key, 0, NULL, 0) == 0) { long long last_ll; + int rc = pcmk__scan_ll(value, &last_ll, 0LL); - if (pcmk__scan_ll(value, &last_ll, 0LL) == pcmk_rc_ok) { - fc_data->last_failure = (time_t) QB_MAX(fc_data->last_failure, - last_ll); + if (rc != pcmk_rc_ok) { + crm_info("Ignoring invalid value '%s' for %s: %s", + (const char *) value, (const char *) key, pcmk_rc_str(rc)); + return; } + fc_data->last_failure = (time_t) QB_MAX(fc_data->last_failure, last_ll); } } /*! * \internal * \brief Update fail count and last failure appropriately for launched resource * * \param[in] data Launched resource * \param[in] user_data Fail count data to update */ static void update_launched_failcount(gpointer data, gpointer user_data) { pcmk_resource_t *launched = data; struct failcount_data *fc_data = user_data; time_t launched_last_failure = 0; fc_data->failcount += pe_get_failcount(fc_data->node, launched, &launched_last_failure, fc_data->flags, fc_data->xml_op); fc_data->last_failure = QB_MAX(fc_data->last_failure, launched_last_failure); } #define readable_expiration(rsc) \ pcmk__readable_interval((rsc)->priv->failure_expiration_ms) /*! * \internal * \brief Get a resource's fail count on a node * * \param[in] node Node to check * \param[in,out] rsc Resource to check * \param[out] last_failure If not NULL, where to set time of most recent * failure of \p rsc on \p node * \param[in] flags Group of enum pcmk__fc_flags * \param[in] xml_op If not NULL, consider only the action in this * history entry when determining whether on-fail * is configured as "blocked", otherwise consider * all actions configured for \p rsc * * \return Fail count for \p rsc on \p node according to \p flags */ int pe_get_failcount(const pcmk_node_t *node, pcmk_resource_t *rsc, time_t *last_failure, uint32_t flags, const xmlNode *xml_op) { struct failcount_data fc_data = { .node = node, .rsc = rsc, .flags = flags, .xml_op = xml_op, .failcount = 0, .last_failure = (time_t) 0, }; // Calculate resource failcount as sum of all matching operation failcounts CRM_CHECK(generate_fail_regexes(rsc, &fc_data.failcount_re, &fc_data.lastfailure_re) == pcmk_rc_ok, return 0); g_hash_table_foreach(node->priv->attrs, update_failcount_for_attr, &fc_data); regfree(&(fc_data.failcount_re)); regfree(&(fc_data.lastfailure_re)); // If failure blocks the resource, disregard any failure timeout if ((fc_data.failcount > 0) && (rsc->priv->failure_expiration_ms > 0) && block_failure(node, rsc, xml_op)) { pcmk__config_warn("Ignoring failure timeout (%s) for %s " "because it conflicts with " PCMK_META_ON_FAIL "=" PCMK_VALUE_BLOCK, readable_expiration(rsc), rsc->id); rsc->priv->failure_expiration_ms = 0; } // If all failures have expired, ignore fail count if (pcmk_is_set(flags, pcmk__fc_effective) && (fc_data.failcount > 0) && (fc_data.last_failure > 0) && (rsc->priv->failure_expiration_ms > 0)) { time_t now = get_effective_time(rsc->priv->scheduler); const guint expiration = rsc->priv->failure_expiration_ms / 1000; if (now > (fc_data.last_failure + expiration)) { pcmk__rsc_debug(rsc, "Failcount for %s on %s expired after %s", rsc->id, pcmk__node_name(node), readable_expiration(rsc)); fc_data.failcount = 0; } } /* Add the fail count of any launched resources, except that we never want * the fail counts of a bundle container's launched resources to count * towards the container's fail count. * * Most importantly, a Pacemaker Remote connection to a bundle container * is launched by the container, but can reside on a different node than the * container itself. Counting its fail count on its node towards the * container's fail count on that node could lead to attempting to stop the * container on the wrong node. */ if (pcmk_is_set(flags, pcmk__fc_launched) && (rsc->priv->launched != NULL) && !pcmk__is_bundled(rsc)) { g_list_foreach(rsc->priv->launched, update_launched_failcount, &fc_data); if (fc_data.failcount > 0) { pcmk__rsc_info(rsc, "Container %s and the resources within it " "have failed %s time%s on %s", rsc->id, pcmk_readable_score(fc_data.failcount), pcmk__plural_s(fc_data.failcount), pcmk__node_name(node)); } } else if (fc_data.failcount > 0) { pcmk__rsc_info(rsc, "%s has failed %s time%s on %s", rsc->id, pcmk_readable_score(fc_data.failcount), pcmk__plural_s(fc_data.failcount), pcmk__node_name(node)); } if (last_failure != NULL) { if ((fc_data.failcount > 0) && (fc_data.last_failure > 0)) { *last_failure = fc_data.last_failure; } else { *last_failure = 0; } } return fc_data.failcount; } /*! * \brief Schedule a controller operation to clear a fail count * * \param[in,out] rsc Resource with failure * \param[in] node Node failure occurred on * \param[in] reason Readable description why needed (for logging) * \param[in,out] scheduler Scheduler data cluster * * \return Scheduled action */ pcmk_action_t * pe__clear_failcount(pcmk_resource_t *rsc, const pcmk_node_t *node, const char *reason, pcmk_scheduler_t *scheduler) { char *key = NULL; pcmk_action_t *clear = NULL; CRM_CHECK(rsc && node && reason && scheduler, return NULL); key = pcmk__op_key(rsc->id, PCMK_ACTION_CLEAR_FAILCOUNT, 0); clear = custom_action(rsc, key, PCMK_ACTION_CLEAR_FAILCOUNT, node, FALSE, scheduler); pcmk__insert_meta(clear, PCMK__META_OP_NO_WAIT, PCMK_VALUE_TRUE); crm_notice("Clearing failure of %s on %s because %s " QB_XS " %s", rsc->id, pcmk__node_name(node), reason, clear->uuid); return clear; } diff --git a/lib/pengine/pe_output.c b/lib/pengine/pe_output.c index 6063959d42..9d8755dad9 100644 --- a/lib/pengine/pe_output.c +++ b/lib/pengine/pe_output.c @@ -1,3479 +1,3479 @@ /* * Copyright 2019-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include #include #include #include #include #include #include const char * pe__resource_description(const pcmk_resource_t *rsc, uint32_t show_opts) { const char * desc = NULL; // User-supplied description if (pcmk_any_flags_set(show_opts, pcmk_show_rsc_only|pcmk_show_description)) { desc = crm_element_value(rsc->priv->xml, PCMK_XA_DESCRIPTION); } return desc; } /* Never display node attributes whose name starts with one of these prefixes */ #define FILTER_STR { PCMK__FAIL_COUNT_PREFIX, PCMK__LAST_FAILURE_PREFIX, \ PCMK__NODE_ATTR_SHUTDOWN, PCMK_NODE_ATTR_TERMINATE, \ PCMK_NODE_ATTR_STANDBY, "#", NULL } static int compare_attribute(gconstpointer a, gconstpointer b) { int rc; rc = strcmp((const char *)a, (const char *)b); return rc; } /*! * \internal * \brief Determine whether extended information about an attribute should be added. * * \param[in] node Node that ran this resource * \param[in,out] rsc_list List of resources for this node * \param[in,out] scheduler Scheduler data * \param[in] attrname Attribute to find * \param[out] expected_score Expected value for this attribute * * \return true if extended information should be printed, false otherwise * \note Currently, extended information is only supported for ping/pingd * resources, for which a message will be printed if connectivity is lost * or degraded. */ static bool add_extra_info(const pcmk_node_t *node, GList *rsc_list, pcmk_scheduler_t *scheduler, const char *attrname, int *expected_score) { GList *gIter = NULL; for (gIter = rsc_list; gIter != NULL; gIter = gIter->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) gIter->data; const char *type = g_hash_table_lookup(rsc->priv->meta, PCMK_XA_TYPE); const char *name = NULL; GHashTable *params = NULL; if (rsc->priv->children != NULL) { if (add_extra_info(node, rsc->priv->children, scheduler, attrname, expected_score)) { return true; } } if (!pcmk__strcase_any_of(type, "ping", "pingd", NULL)) { continue; } params = pe_rsc_params(rsc, node, scheduler); name = g_hash_table_lookup(params, PCMK_XA_NAME); if (name == NULL) { name = "pingd"; } /* To identify the resource with the attribute name. */ if (pcmk__str_eq(name, attrname, pcmk__str_casei)) { int host_list_num = 0; const char *hosts = g_hash_table_lookup(params, "host_list"); const char *multiplier = g_hash_table_lookup(params, "multiplier"); int multiplier_i; if (hosts) { char **host_list = g_strsplit(hosts, " ", 0); host_list_num = g_strv_length(host_list); g_strfreev(host_list); } if ((multiplier == NULL) || (pcmk__scan_min_int(multiplier, &multiplier_i, INT_MIN) != pcmk_rc_ok)) { /* The ocf:pacemaker:ping resource agent defaults multiplier to * 1. The agent currently does not handle invalid text, but it * should, and this would be a reasonable choice ... */ multiplier_i = 1; } *expected_score = host_list_num * multiplier_i; return true; } } return false; } static GList * filter_attr_list(GList *attr_list, char *name) { int i; const char *filt_str[] = FILTER_STR; CRM_CHECK(name != NULL, return attr_list); /* filtering automatic attributes */ for (i = 0; filt_str[i] != NULL; i++) { if (g_str_has_prefix(name, filt_str[i])) { return attr_list; } } return g_list_insert_sorted(attr_list, name, compare_attribute); } static GList * get_operation_list(xmlNode *rsc_entry) { GList *op_list = NULL; xmlNode *rsc_op = NULL; for (rsc_op = pcmk__xe_first_child(rsc_entry, NULL, NULL, NULL); rsc_op != NULL; rsc_op = pcmk__xe_next(rsc_op)) { const char *task = crm_element_value(rsc_op, PCMK_XA_OPERATION); const char *interval_ms_s = crm_element_value(rsc_op, PCMK_META_INTERVAL); const char *op_rc = crm_element_value(rsc_op, PCMK__XA_RC_CODE); int op_rc_i; pcmk__scan_min_int(op_rc, &op_rc_i, 0); /* Display 0-interval monitors as "probe" */ if (pcmk__str_eq(task, PCMK_ACTION_MONITOR, pcmk__str_casei) && pcmk__str_eq(interval_ms_s, "0", pcmk__str_null_matches | pcmk__str_casei)) { task = "probe"; } /* Ignore notifies and some probes */ if (pcmk__str_eq(task, PCMK_ACTION_NOTIFY, pcmk__str_none) || (pcmk__str_eq(task, "probe", pcmk__str_none) && (op_rc_i == CRM_EX_NOT_RUNNING))) { continue; } if (pcmk__xe_is(rsc_op, PCMK__XE_LRM_RSC_OP)) { op_list = g_list_append(op_list, rsc_op); } } op_list = g_list_sort(op_list, sort_op_by_callid); return op_list; } static void add_dump_node(gpointer key, gpointer value, gpointer user_data) { xmlNodePtr node = user_data; node = pcmk__xe_create(node, (const char *) key); pcmk__xe_set_content(node, "%s", (const char *) value); } static void append_dump_text(gpointer key, gpointer value, gpointer user_data) { char **dump_text = user_data; char *new_text = crm_strdup_printf("%s %s=%s", *dump_text, (char *)key, (char *)value); free(*dump_text); *dump_text = new_text; } #define XPATH_STACK "//" PCMK_XE_NVPAIR \ "[@" PCMK_XA_NAME "='" \ PCMK_OPT_CLUSTER_INFRASTRUCTURE "']" static const char * get_cluster_stack(pcmk_scheduler_t *scheduler) { xmlNode *stack = get_xpath_object(XPATH_STACK, scheduler->input, LOG_DEBUG); if (stack != NULL) { return crm_element_value(stack, PCMK_XA_VALUE); } return PCMK_VALUE_UNKNOWN; } static char * last_changed_string(const char *last_written, const char *user, const char *client, const char *origin) { if (last_written != NULL || user != NULL || client != NULL || origin != NULL) { return crm_strdup_printf("%s%s%s%s%s%s%s", last_written ? last_written : "", user ? " by " : "", user ? user : "", client ? " via " : "", client ? client : "", origin ? " on " : "", origin ? origin : ""); } else { return strdup(""); } } static char * op_history_string(xmlNode *xml_op, const char *task, const char *interval_ms_s, int rc, bool print_timing) { const char *call = crm_element_value(xml_op, PCMK__XA_CALL_ID); char *interval_str = NULL; char *buf = NULL; if (interval_ms_s && !pcmk__str_eq(interval_ms_s, "0", pcmk__str_casei)) { char *pair = pcmk__format_nvpair(PCMK_XA_INTERVAL, interval_ms_s, "ms"); interval_str = crm_strdup_printf(" %s", pair); free(pair); } if (print_timing) { char *last_change_str = NULL; char *exec_str = NULL; char *queue_str = NULL; const char *value = NULL; time_t epoch = 0; if ((crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &epoch) == pcmk_ok) && (epoch > 0)) { char *epoch_str = pcmk__epoch2str(&epoch, 0); last_change_str = crm_strdup_printf(" %s=\"%s\"", PCMK_XA_LAST_RC_CHANGE, pcmk__s(epoch_str, "")); free(epoch_str); } value = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); if (value) { char *pair = pcmk__format_nvpair(PCMK_XA_EXEC_TIME, value, "ms"); exec_str = crm_strdup_printf(" %s", pair); free(pair); } value = crm_element_value(xml_op, PCMK_XA_QUEUE_TIME); if (value) { char *pair = pcmk__format_nvpair(PCMK_XA_QUEUE_TIME, value, "ms"); queue_str = crm_strdup_printf(" %s", pair); free(pair); } buf = crm_strdup_printf("(%s) %s:%s%s%s%s rc=%d (%s)", call, task, interval_str ? interval_str : "", last_change_str ? last_change_str : "", exec_str ? exec_str : "", queue_str ? queue_str : "", rc, services_ocf_exitcode_str(rc)); if (last_change_str) { free(last_change_str); } if (exec_str) { free(exec_str); } if (queue_str) { free(queue_str); } } else { buf = crm_strdup_printf("(%s) %s%s%s", call, task, interval_str ? ":" : "", interval_str ? interval_str : ""); } if (interval_str) { free(interval_str); } return buf; } static char * resource_history_string(pcmk_resource_t *rsc, const char *rsc_id, bool all, int failcount, time_t last_failure) { char *buf = NULL; if (rsc == NULL) { buf = crm_strdup_printf("%s: orphan", rsc_id); } else if (all || failcount || last_failure > 0) { char *failcount_s = NULL; char *lastfail_s = NULL; if (failcount > 0) { failcount_s = crm_strdup_printf(" %s=%d", PCMK_XA_FAIL_COUNT, failcount); } else { failcount_s = strdup(""); } if (last_failure > 0) { buf = pcmk__epoch2str(&last_failure, 0); lastfail_s = crm_strdup_printf(" %s='%s'", PCMK_XA_LAST_FAILURE, buf); free(buf); } buf = crm_strdup_printf("%s: " PCMK_META_MIGRATION_THRESHOLD "=%d%s%s", rsc_id, rsc->priv->ban_after_failures, failcount_s, pcmk__s(lastfail_s, "")); free(failcount_s); free(lastfail_s); } else { buf = crm_strdup_printf("%s:", rsc_id); } return buf; } /*! * \internal * \brief Get a node's feature set for status display purposes * * \param[in] node Node to check * * \return String representation of feature set if the node is fully up (using * "<3.15.1" for older nodes that don't set the #feature-set attribute), * otherwise NULL */ static const char * get_node_feature_set(const pcmk_node_t *node) { if (node->details->online && pcmk_is_set(node->priv->flags, pcmk__node_expected_up) && !pcmk__is_pacemaker_remote_node(node)) { const char *feature_set = g_hash_table_lookup(node->priv->attrs, CRM_ATTR_FEATURE_SET); /* The feature set attribute is present since 3.15.1. If it is missing, * then the node must be running an earlier version. */ return pcmk__s(feature_set, "<3.15.1"); } return NULL; } static bool is_mixed_version(pcmk_scheduler_t *scheduler) { const char *feature_set = NULL; for (GList *gIter = scheduler->nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *node = gIter->data; const char *node_feature_set = get_node_feature_set(node); if (node_feature_set != NULL) { if (feature_set == NULL) { feature_set = node_feature_set; } else if (strcmp(feature_set, node_feature_set) != 0) { return true; } } } return false; } static void formatted_xml_buf(const pcmk_resource_t *rsc, GString *xml_buf, bool raw) { if (raw && (rsc->priv->orig_xml != NULL)) { pcmk__xml_string(rsc->priv->orig_xml, pcmk__xml_fmt_pretty, xml_buf, 0); } else { pcmk__xml_string(rsc->priv->xml, pcmk__xml_fmt_pretty, xml_buf, 0); } } #define XPATH_DC_VERSION "//" PCMK_XE_NVPAIR \ "[@" PCMK_XA_NAME "='" PCMK_OPT_DC_VERSION "']" PCMK__OUTPUT_ARGS("cluster-summary", "pcmk_scheduler_t *", "enum pcmk_pacemakerd_state", "uint32_t", "uint32_t") static int cluster_summary(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); enum pcmk_pacemakerd_state pcmkd_state = (enum pcmk_pacemakerd_state) va_arg(args, int); uint32_t section_opts = va_arg(args, uint32_t); uint32_t show_opts = va_arg(args, uint32_t); int rc = pcmk_rc_no_output; const char *stack_s = get_cluster_stack(scheduler); if (pcmk_is_set(section_opts, pcmk_section_stack)) { PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-stack", stack_s, pcmkd_state); } if (pcmk_is_set(section_opts, pcmk_section_dc)) { xmlNode *dc_version = get_xpath_object(XPATH_DC_VERSION, scheduler->input, LOG_DEBUG); const char *dc_version_s = dc_version? crm_element_value(dc_version, PCMK_XA_VALUE) : NULL; const char *quorum = crm_element_value(scheduler->input, PCMK_XA_HAVE_QUORUM); char *dc_name = scheduler->dc_node? pe__node_display_name(scheduler->dc_node, pcmk_is_set(show_opts, pcmk_show_node_id)) : NULL; bool mixed_version = is_mixed_version(scheduler); PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-dc", scheduler->dc_node, quorum, dc_version_s, dc_name, mixed_version); free(dc_name); } if (pcmk_is_set(section_opts, pcmk_section_times)) { const char *last_written = crm_element_value(scheduler->input, PCMK_XA_CIB_LAST_WRITTEN); const char *user = crm_element_value(scheduler->input, PCMK_XA_UPDATE_USER); const char *client = crm_element_value(scheduler->input, PCMK_XA_UPDATE_CLIENT); const char *origin = crm_element_value(scheduler->input, PCMK_XA_UPDATE_ORIGIN); PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-times", scheduler->priv->local_node_name, last_written, user, client, origin); } if (pcmk_is_set(section_opts, pcmk_section_counts)) { PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-counts", g_list_length(scheduler->nodes), scheduler->priv->ninstances, scheduler->priv->disabled_resources, scheduler->priv->blocked_resources); } if (pcmk_is_set(section_opts, pcmk_section_options)) { PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-options", scheduler); } PCMK__OUTPUT_LIST_FOOTER(out, rc); if (pcmk_is_set(section_opts, pcmk_section_maint_mode)) { if (out->message(out, "maint-mode", scheduler->flags) == pcmk_rc_ok) { rc = pcmk_rc_ok; } } return rc; } PCMK__OUTPUT_ARGS("cluster-summary", "pcmk_scheduler_t *", "enum pcmk_pacemakerd_state", "uint32_t", "uint32_t") static int cluster_summary_html(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); enum pcmk_pacemakerd_state pcmkd_state = (enum pcmk_pacemakerd_state) va_arg(args, int); uint32_t section_opts = va_arg(args, uint32_t); uint32_t show_opts = va_arg(args, uint32_t); int rc = pcmk_rc_no_output; const char *stack_s = get_cluster_stack(scheduler); if (pcmk_is_set(section_opts, pcmk_section_stack)) { PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-stack", stack_s, pcmkd_state); } /* Always print DC if none, even if not requested */ if ((scheduler->dc_node == NULL) || pcmk_is_set(section_opts, pcmk_section_dc)) { xmlNode *dc_version = get_xpath_object(XPATH_DC_VERSION, scheduler->input, LOG_DEBUG); const char *dc_version_s = dc_version? crm_element_value(dc_version, PCMK_XA_VALUE) : NULL; const char *quorum = crm_element_value(scheduler->input, PCMK_XA_HAVE_QUORUM); char *dc_name = scheduler->dc_node? pe__node_display_name(scheduler->dc_node, pcmk_is_set(show_opts, pcmk_show_node_id)) : NULL; bool mixed_version = is_mixed_version(scheduler); PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-dc", scheduler->dc_node, quorum, dc_version_s, dc_name, mixed_version); free(dc_name); } if (pcmk_is_set(section_opts, pcmk_section_times)) { const char *last_written = crm_element_value(scheduler->input, PCMK_XA_CIB_LAST_WRITTEN); const char *user = crm_element_value(scheduler->input, PCMK_XA_UPDATE_USER); const char *client = crm_element_value(scheduler->input, PCMK_XA_UPDATE_CLIENT); const char *origin = crm_element_value(scheduler->input, PCMK_XA_UPDATE_ORIGIN); PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-times", scheduler->priv->local_node_name, last_written, user, client, origin); } if (pcmk_is_set(section_opts, pcmk_section_counts)) { PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Cluster Summary"); out->message(out, "cluster-counts", g_list_length(scheduler->nodes), scheduler->priv->ninstances, scheduler->priv->disabled_resources, scheduler->priv->blocked_resources); } if (pcmk_is_set(section_opts, pcmk_section_options)) { /* Kind of a hack - close the list we may have opened earlier in this * function so we can put all the options into their own list. We * only want to do this on HTML output, though. */ PCMK__OUTPUT_LIST_FOOTER(out, rc); out->begin_list(out, NULL, NULL, "Config Options"); out->message(out, "cluster-options", scheduler); } PCMK__OUTPUT_LIST_FOOTER(out, rc); if (pcmk_is_set(section_opts, pcmk_section_maint_mode)) { if (out->message(out, "maint-mode", scheduler->flags) == pcmk_rc_ok) { rc = pcmk_rc_ok; } } return rc; } char * pe__node_display_name(pcmk_node_t *node, bool print_detail) { char *node_name; const char *node_host = NULL; const char *node_id = NULL; int name_len; CRM_ASSERT((node != NULL) && (node->priv->name != NULL)); /* Host is displayed only if this is a guest node and detail is requested */ if (print_detail && pcmk__is_guest_or_bundle_node(node)) { const pcmk_resource_t *launcher = NULL; const pcmk_node_t *host_node = NULL; launcher = node->priv->remote->priv->launcher; host_node = pcmk__current_node(launcher); if (host_node && host_node->details) { node_host = host_node->priv->name; } if (node_host == NULL) { node_host = ""; /* so we at least get "uname@" to indicate guest */ } } /* Node ID is displayed if different from uname and detail is requested */ if (print_detail && !pcmk__str_eq(node->priv->name, node->priv->id, pcmk__str_casei)) { node_id = node->priv->id; } /* Determine name length */ name_len = strlen(node->priv->name) + 1; if (node_host) { name_len += strlen(node_host) + 1; /* "@node_host" */ } if (node_id) { name_len += strlen(node_id) + 3; /* + " (node_id)" */ } /* Allocate and populate display name */ node_name = pcmk__assert_alloc(name_len, sizeof(char)); strcpy(node_name, node->priv->name); if (node_host) { strcat(node_name, "@"); strcat(node_name, node_host); } if (node_id) { strcat(node_name, " ("); strcat(node_name, node_id); strcat(node_name, ")"); } return node_name; } int pe__name_and_nvpairs_xml(pcmk__output_t *out, bool is_list, const char *tag_name, ...) { xmlNodePtr xml_node = NULL; va_list pairs; CRM_ASSERT(tag_name != NULL); xml_node = pcmk__output_xml_peek_parent(out); CRM_ASSERT(xml_node != NULL); xml_node = pcmk__xe_create(xml_node, tag_name); va_start(pairs, tag_name); pcmk__xe_set_propv(xml_node, pairs); va_end(pairs); if (is_list) { pcmk__output_xml_push_parent(out, xml_node); } return pcmk_rc_ok; } static const char * role_desc(enum rsc_role_e role) { if (role == pcmk_role_promoted) { return "in " PCMK_ROLE_PROMOTED " role "; } return ""; } PCMK__OUTPUT_ARGS("ban", "pcmk_node_t *", "pcmk__location_t *", "uint32_t") static int ban_html(pcmk__output_t *out, va_list args) { pcmk_node_t *pe_node = va_arg(args, pcmk_node_t *); pcmk__location_t *location = va_arg(args, pcmk__location_t *); uint32_t show_opts = va_arg(args, uint32_t); char *node_name = pe__node_display_name(pe_node, pcmk_is_set(show_opts, pcmk_show_node_id)); char *buf = crm_strdup_printf("%s\tprevents %s from running %son %s", location->id, location->rsc->id, role_desc(location->role_filter), node_name); pcmk__output_create_html_node(out, "li", NULL, NULL, buf); free(node_name); free(buf); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("ban", "pcmk_node_t *", "pcmk__location_t *", "uint32_t") static int ban_text(pcmk__output_t *out, va_list args) { pcmk_node_t *pe_node = va_arg(args, pcmk_node_t *); pcmk__location_t *location = va_arg(args, pcmk__location_t *); uint32_t show_opts = va_arg(args, uint32_t); char *node_name = pe__node_display_name(pe_node, pcmk_is_set(show_opts, pcmk_show_node_id)); out->list_item(out, NULL, "%s\tprevents %s from running %son %s", location->id, location->rsc->id, role_desc(location->role_filter), node_name); free(node_name); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("ban", "pcmk_node_t *", "pcmk__location_t *", "uint32_t") static int ban_xml(pcmk__output_t *out, va_list args) { pcmk_node_t *pe_node = va_arg(args, pcmk_node_t *); pcmk__location_t *location = va_arg(args, pcmk__location_t *); uint32_t show_opts G_GNUC_UNUSED = va_arg(args, uint32_t); const char *promoted_only = pcmk__btoa(location->role_filter == pcmk_role_promoted); char *weight_s = pcmk__itoa(pe_node->assign->score); pcmk__output_create_xml_node(out, PCMK_XE_BAN, PCMK_XA_ID, location->id, PCMK_XA_RESOURCE, location->rsc->id, PCMK_XA_NODE, pe_node->priv->name, PCMK_XA_WEIGHT, weight_s, PCMK_XA_PROMOTED_ONLY, promoted_only, /* This is a deprecated alias for * promoted_only. Removing it will break * backward compatibility of the API schema, * which will require an API schema major * version bump. */ PCMK__XA_PROMOTED_ONLY_LEGACY, promoted_only, NULL); free(weight_s); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("ban-list", "pcmk_scheduler_t *", "const char *", "GList *", "uint32_t", "bool") static int ban_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); const char *prefix = va_arg(args, const char *); GList *only_rsc = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer = va_arg(args, int); GList *gIter, *gIter2; int rc = pcmk_rc_no_output; /* Print each ban */ for (gIter = scheduler->priv->location_constraints; gIter != NULL; gIter = gIter->next) { pcmk__location_t *location = gIter->data; const pcmk_resource_t *rsc = location->rsc; if (prefix != NULL && !g_str_has_prefix(location->id, prefix)) { continue; } if (!pcmk__str_in_list(rsc_printable_id(rsc), only_rsc, pcmk__str_star_matches) && !pcmk__str_in_list(rsc_printable_id(pe__const_top_resource(rsc, false)), only_rsc, pcmk__str_star_matches)) { continue; } for (gIter2 = location->nodes; gIter2 != NULL; gIter2 = gIter2->next) { pcmk_node_t *node = (pcmk_node_t *) gIter2->data; if (node->assign->score < 0) { PCMK__OUTPUT_LIST_HEADER(out, print_spacer, rc, "Negative Location Constraints"); out->message(out, "ban", node, location, show_opts); } } } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("cluster-counts", "unsigned int", "int", "int", "int") static int cluster_counts_html(pcmk__output_t *out, va_list args) { unsigned int nnodes = va_arg(args, unsigned int); int nresources = va_arg(args, int); int ndisabled = va_arg(args, int); int nblocked = va_arg(args, int); xmlNodePtr nodes_node = pcmk__output_create_xml_node(out, "li", NULL); xmlNodePtr resources_node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; child = pcmk__html_create(nodes_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%d node%s configured", nnodes, pcmk__plural_s(nnodes)); if (ndisabled && nblocked) { child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%d resource instance%s configured (%d ", nresources, pcmk__plural_s(nresources), ndisabled); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "DISABLED"); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, ", %d ", nblocked); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "BLOCKED"); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " from further action due to failure)"); } else if (ndisabled && !nblocked) { child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%d resource instance%s configured (%d ", nresources, pcmk__plural_s(nresources), ndisabled); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "DISABLED"); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, ")"); } else if (!ndisabled && nblocked) { child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%d resource instance%s configured (%d ", nresources, pcmk__plural_s(nresources), nblocked); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "BLOCKED"); child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " from further action due to failure)"); } else { child = pcmk__html_create(resources_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%d resource instance%s configured", nresources, pcmk__plural_s(nresources)); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-counts", "unsigned int", "int", "int", "int") static int cluster_counts_text(pcmk__output_t *out, va_list args) { unsigned int nnodes = va_arg(args, unsigned int); int nresources = va_arg(args, int); int ndisabled = va_arg(args, int); int nblocked = va_arg(args, int); out->list_item(out, NULL, "%d node%s configured", nnodes, pcmk__plural_s(nnodes)); if (ndisabled && nblocked) { out->list_item(out, NULL, "%d resource instance%s configured " "(%d DISABLED, %d BLOCKED from " "further action due to failure)", nresources, pcmk__plural_s(nresources), ndisabled, nblocked); } else if (ndisabled && !nblocked) { out->list_item(out, NULL, "%d resource instance%s configured " "(%d DISABLED)", nresources, pcmk__plural_s(nresources), ndisabled); } else if (!ndisabled && nblocked) { out->list_item(out, NULL, "%d resource instance%s configured " "(%d BLOCKED from further action " "due to failure)", nresources, pcmk__plural_s(nresources), nblocked); } else { out->list_item(out, NULL, "%d resource instance%s configured", nresources, pcmk__plural_s(nresources)); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-counts", "unsigned int", "int", "int", "int") static int cluster_counts_xml(pcmk__output_t *out, va_list args) { unsigned int nnodes = va_arg(args, unsigned int); int nresources = va_arg(args, int); int ndisabled = va_arg(args, int); int nblocked = va_arg(args, int); xmlNodePtr nodes_node = NULL; xmlNodePtr resources_node = NULL; char *s = NULL; nodes_node = pcmk__output_create_xml_node(out, PCMK_XE_NODES_CONFIGURED, NULL); resources_node = pcmk__output_create_xml_node(out, PCMK_XE_RESOURCES_CONFIGURED, NULL); s = pcmk__itoa(nnodes); crm_xml_add(nodes_node, PCMK_XA_NUMBER, s); free(s); s = pcmk__itoa(nresources); crm_xml_add(resources_node, PCMK_XA_NUMBER, s); free(s); s = pcmk__itoa(ndisabled); crm_xml_add(resources_node, PCMK_XA_DISABLED, s); free(s); s = pcmk__itoa(nblocked); crm_xml_add(resources_node, PCMK_XA_BLOCKED, s); free(s); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-dc", "pcmk_node_t *", "const char *", "const char *", "char *", "int") static int cluster_dc_html(pcmk__output_t *out, va_list args) { pcmk_node_t *dc = va_arg(args, pcmk_node_t *); const char *quorum = va_arg(args, const char *); const char *dc_version_s = va_arg(args, const char *); char *dc_name = va_arg(args, char *); bool mixed_version = va_arg(args, int); xmlNodePtr node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "Current DC: "); if (dc) { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%s (version %s) -", dc_name, pcmk__s(dc_version_s, "unknown")); if (mixed_version) { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_WARNING); pcmk__xe_set_content(child, " MIXED-VERSION"); } child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " partition"); if (crm_is_true(quorum)) { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " with"); } else { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_WARNING); pcmk__xe_set_content(child, " WITHOUT"); } child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " quorum"); } else { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_WARNING); pcmk__xe_set_content(child, "NONE"); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-dc", "pcmk_node_t *", "const char *", "const char *", "char *", "int") static int cluster_dc_text(pcmk__output_t *out, va_list args) { pcmk_node_t *dc = va_arg(args, pcmk_node_t *); const char *quorum = va_arg(args, const char *); const char *dc_version_s = va_arg(args, const char *); char *dc_name = va_arg(args, char *); bool mixed_version = va_arg(args, int); if (dc) { out->list_item(out, "Current DC", "%s (version %s) - %spartition %s quorum", dc_name, dc_version_s ? dc_version_s : "unknown", mixed_version ? "MIXED-VERSION " : "", crm_is_true(quorum) ? "with" : "WITHOUT"); } else { out->list_item(out, "Current DC", "NONE"); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-dc", "pcmk_node_t *", "const char *", "const char *", "char *", "int") static int cluster_dc_xml(pcmk__output_t *out, va_list args) { pcmk_node_t *dc = va_arg(args, pcmk_node_t *); const char *quorum = va_arg(args, const char *); const char *dc_version_s = va_arg(args, const char *); char *dc_name G_GNUC_UNUSED = va_arg(args, char *); bool mixed_version = va_arg(args, int); if (dc) { const char *with_quorum = pcmk__btoa(crm_is_true(quorum)); const char *mixed_version_s = pcmk__btoa(mixed_version); pcmk__output_create_xml_node(out, PCMK_XE_CURRENT_DC, PCMK_XA_PRESENT, PCMK_VALUE_TRUE, PCMK_XA_VERSION, pcmk__s(dc_version_s, ""), PCMK_XA_NAME, dc->priv->name, PCMK_XA_ID, dc->priv->id, PCMK_XA_WITH_QUORUM, with_quorum, PCMK_XA_MIXED_VERSION, mixed_version_s, NULL); } else { pcmk__output_create_xml_node(out, PCMK_XE_CURRENT_DC, PCMK_XA_PRESENT, PCMK_VALUE_FALSE, NULL); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("maint-mode", "uint64_t") static int cluster_maint_mode_text(pcmk__output_t *out, va_list args) { uint64_t flags = va_arg(args, uint64_t); if (pcmk_is_set(flags, pcmk__sched_in_maintenance)) { pcmk__formatted_printf(out, "\n *** Resource management is DISABLED ***\n"); pcmk__formatted_printf(out, " The cluster will not attempt to start, stop or recover services\n"); return pcmk_rc_ok; } else if (pcmk_is_set(flags, pcmk__sched_stop_all)) { pcmk__formatted_printf(out, "\n *** Resource management is DISABLED ***\n"); pcmk__formatted_printf(out, " The cluster will keep all resources stopped\n"); return pcmk_rc_ok; } else { return pcmk_rc_no_output; } } PCMK__OUTPUT_ARGS("cluster-options", "pcmk_scheduler_t *") static int cluster_options_html(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { out->list_item(out, NULL, "STONITH of failed nodes enabled"); } else { out->list_item(out, NULL, "STONITH of failed nodes disabled"); } if (pcmk_is_set(scheduler->flags, pcmk__sched_symmetric_cluster)) { out->list_item(out, NULL, "Cluster is symmetric"); } else { out->list_item(out, NULL, "Cluster is asymmetric"); } switch (scheduler->no_quorum_policy) { case pcmk_no_quorum_freeze: out->list_item(out, NULL, "No quorum policy: Freeze resources"); break; case pcmk_no_quorum_stop: out->list_item(out, NULL, "No quorum policy: Stop ALL resources"); break; case pcmk_no_quorum_demote: out->list_item(out, NULL, "No quorum policy: Demote promotable " "resources and stop all other resources"); break; case pcmk_no_quorum_ignore: out->list_item(out, NULL, "No quorum policy: Ignore"); break; case pcmk_no_quorum_fence: out->list_item(out, NULL, "No quorum policy: Fence nodes in partition"); break; } if (pcmk_is_set(scheduler->flags, pcmk__sched_in_maintenance)) { xmlNodePtr node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "Resource management: "); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "DISABLED"); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " (the cluster will not attempt to start, stop," " or recover services)"); } else if (pcmk_is_set(scheduler->flags, pcmk__sched_stop_all)) { xmlNodePtr node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "Resource management: "); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "STOPPED"); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " (the cluster will keep all resources stopped)"); } else { out->list_item(out, NULL, "Resource management: enabled"); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-options", "pcmk_scheduler_t *") static int cluster_options_log(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); if (pcmk_is_set(scheduler->flags, pcmk__sched_in_maintenance)) { return out->info(out, "Resource management is DISABLED. The cluster will not attempt to start, stop or recover services."); } else if (pcmk_is_set(scheduler->flags, pcmk__sched_stop_all)) { return out->info(out, "Resource management is DISABLED. The cluster has stopped all resources."); } else { return pcmk_rc_no_output; } } PCMK__OUTPUT_ARGS("cluster-options", "pcmk_scheduler_t *") static int cluster_options_text(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { out->list_item(out, NULL, "STONITH of failed nodes enabled"); } else { out->list_item(out, NULL, "STONITH of failed nodes disabled"); } if (pcmk_is_set(scheduler->flags, pcmk__sched_symmetric_cluster)) { out->list_item(out, NULL, "Cluster is symmetric"); } else { out->list_item(out, NULL, "Cluster is asymmetric"); } switch (scheduler->no_quorum_policy) { case pcmk_no_quorum_freeze: out->list_item(out, NULL, "No quorum policy: Freeze resources"); break; case pcmk_no_quorum_stop: out->list_item(out, NULL, "No quorum policy: Stop ALL resources"); break; case pcmk_no_quorum_demote: out->list_item(out, NULL, "No quorum policy: Demote promotable " "resources and stop all other resources"); break; case pcmk_no_quorum_ignore: out->list_item(out, NULL, "No quorum policy: Ignore"); break; case pcmk_no_quorum_fence: out->list_item(out, NULL, "No quorum policy: Fence nodes in partition"); break; } return pcmk_rc_ok; } /*! * \internal * \brief Get readable string representation of a no-quorum policy * * \param[in] policy No-quorum policy * * \return String representation of \p policy */ static const char * no_quorum_policy_text(enum pe_quorum_policy policy) { switch (policy) { case pcmk_no_quorum_freeze: return PCMK_VALUE_FREEZE; case pcmk_no_quorum_stop: return PCMK_VALUE_STOP; case pcmk_no_quorum_demote: return PCMK_VALUE_DEMOTE; case pcmk_no_quorum_ignore: return PCMK_VALUE_IGNORE; case pcmk_no_quorum_fence: return PCMK_VALUE_FENCE; default: return PCMK_VALUE_UNKNOWN; } } PCMK__OUTPUT_ARGS("cluster-options", "pcmk_scheduler_t *") static int cluster_options_xml(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); const char *stonith_enabled = pcmk__flag_text(scheduler->flags, pcmk__sched_fencing_enabled); const char *symmetric_cluster = pcmk__flag_text(scheduler->flags, pcmk__sched_symmetric_cluster); const char *no_quorum_policy = no_quorum_policy_text(scheduler->no_quorum_policy); const char *maintenance_mode = pcmk__flag_text(scheduler->flags, pcmk__sched_in_maintenance); const char *stop_all_resources = pcmk__flag_text(scheduler->flags, pcmk__sched_stop_all); char *stonith_timeout_ms_s = crm_strdup_printf("%u", scheduler->priv->fence_timeout_ms); char *priority_fencing_delay_ms_s = crm_strdup_printf("%u", scheduler->priv->priority_fencing_ms); pcmk__output_create_xml_node(out, PCMK_XE_CLUSTER_OPTIONS, PCMK_XA_STONITH_ENABLED, stonith_enabled, PCMK_XA_SYMMETRIC_CLUSTER, symmetric_cluster, PCMK_XA_NO_QUORUM_POLICY, no_quorum_policy, PCMK_XA_MAINTENANCE_MODE, maintenance_mode, PCMK_XA_STOP_ALL_RESOURCES, stop_all_resources, PCMK_XA_STONITH_TIMEOUT_MS, stonith_timeout_ms_s, PCMK_XA_PRIORITY_FENCING_DELAY_MS, priority_fencing_delay_ms_s, NULL); free(stonith_timeout_ms_s); free(priority_fencing_delay_ms_s); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-stack", "const char *", "enum pcmk_pacemakerd_state") static int cluster_stack_html(pcmk__output_t *out, va_list args) { const char *stack_s = va_arg(args, const char *); enum pcmk_pacemakerd_state pcmkd_state = (enum pcmk_pacemakerd_state) va_arg(args, int); xmlNodePtr node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "Stack: "); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%s", stack_s); if (pcmkd_state != pcmk_pacemakerd_state_invalid) { child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " ("); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%s", pcmk__pcmkd_state_enum2friendly(pcmkd_state)); child = pcmk__html_create(node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, ")"); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-stack", "const char *", "enum pcmk_pacemakerd_state") static int cluster_stack_text(pcmk__output_t *out, va_list args) { const char *stack_s = va_arg(args, const char *); enum pcmk_pacemakerd_state pcmkd_state = (enum pcmk_pacemakerd_state) va_arg(args, int); if (pcmkd_state != pcmk_pacemakerd_state_invalid) { out->list_item(out, "Stack", "%s (%s)", stack_s, pcmk__pcmkd_state_enum2friendly(pcmkd_state)); } else { out->list_item(out, "Stack", "%s", stack_s); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-stack", "const char *", "enum pcmk_pacemakerd_state") static int cluster_stack_xml(pcmk__output_t *out, va_list args) { const char *stack_s = va_arg(args, const char *); enum pcmk_pacemakerd_state pcmkd_state = (enum pcmk_pacemakerd_state) va_arg(args, int); const char *state_s = NULL; if (pcmkd_state != pcmk_pacemakerd_state_invalid) { state_s = pcmk_pacemakerd_api_daemon_state_enum2text(pcmkd_state); } pcmk__output_create_xml_node(out, PCMK_XE_STACK, PCMK_XA_TYPE, stack_s, PCMK_XA_PACEMAKERD_STATE, state_s, NULL); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-times", "const char *", "const char *", "const char *", "const char *", "const char *") static int cluster_times_html(pcmk__output_t *out, va_list args) { const char *our_nodename = va_arg(args, const char *); const char *last_written = va_arg(args, const char *); const char *user = va_arg(args, const char *); const char *client = va_arg(args, const char *); const char *origin = va_arg(args, const char *); xmlNodePtr updated_node = pcmk__output_create_xml_node(out, "li", NULL); xmlNodePtr changed_node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; char *time_s = NULL; child = pcmk__html_create(updated_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "Last updated: "); child = pcmk__html_create(updated_node, PCMK__XE_SPAN, NULL, NULL); time_s = pcmk__epoch2str(NULL, 0); pcmk__xe_set_content(child, "%s", time_s); free(time_s); if (our_nodename != NULL) { child = pcmk__html_create(updated_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, " on "); child = pcmk__html_create(updated_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%s", our_nodename); } child = pcmk__html_create(changed_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "Last change: "); child = pcmk__html_create(changed_node, PCMK__XE_SPAN, NULL, NULL); time_s = last_changed_string(last_written, user, client, origin); pcmk__xe_set_content(child, "%s", time_s); free(time_s); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-times", "const char *", "const char *", "const char *", "const char *", "const char *") static int cluster_times_xml(pcmk__output_t *out, va_list args) { const char *our_nodename = va_arg(args, const char *); const char *last_written = va_arg(args, const char *); const char *user = va_arg(args, const char *); const char *client = va_arg(args, const char *); const char *origin = va_arg(args, const char *); char *time_s = pcmk__epoch2str(NULL, 0); pcmk__output_create_xml_node(out, PCMK_XE_LAST_UPDATE, PCMK_XA_TIME, time_s, PCMK_XA_ORIGIN, our_nodename, NULL); pcmk__output_create_xml_node(out, PCMK_XE_LAST_CHANGE, PCMK_XA_TIME, pcmk__s(last_written, ""), PCMK_XA_USER, pcmk__s(user, ""), PCMK_XA_CLIENT, pcmk__s(client, ""), PCMK_XA_ORIGIN, pcmk__s(origin, ""), NULL); free(time_s); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("cluster-times", "const char *", "const char *", "const char *", "const char *", "const char *") static int cluster_times_text(pcmk__output_t *out, va_list args) { const char *our_nodename = va_arg(args, const char *); const char *last_written = va_arg(args, const char *); const char *user = va_arg(args, const char *); const char *client = va_arg(args, const char *); const char *origin = va_arg(args, const char *); char *time_s = pcmk__epoch2str(NULL, 0); out->list_item(out, "Last updated", "%s%s%s", time_s, (our_nodename != NULL)? " on " : "", pcmk__s(our_nodename, "")); free(time_s); time_s = last_changed_string(last_written, user, client, origin); out->list_item(out, "Last change", " %s", time_s); free(time_s); return pcmk_rc_ok; } /*! * \internal * \brief Display a failed action in less-technical natural language * * \param[in,out] out Output object to use for display * \param[in] xml_op XML containing failed action * \param[in] op_key Operation key of failed action * \param[in] node_name Where failed action occurred * \param[in] rc OCF exit code of failed action * \param[in] status Execution status of failed action * \param[in] exit_reason Exit reason given for failed action * \param[in] exec_time String containing execution time in milliseconds */ static void failed_action_friendly(pcmk__output_t *out, const xmlNode *xml_op, const char *op_key, const char *node_name, int rc, int status, const char *exit_reason, const char *exec_time) { char *rsc_id = NULL; char *task = NULL; guint interval_ms = 0; time_t last_change_epoch = 0; GString *str = NULL; if (pcmk__str_empty(op_key) || !parse_op_key(op_key, &rsc_id, &task, &interval_ms)) { pcmk__str_update(&rsc_id, "unknown resource"); pcmk__str_update(&task, "unknown action"); interval_ms = 0; } CRM_ASSERT((rsc_id != NULL) && (task != NULL)); str = g_string_sized_new(256); // Should be sufficient for most messages pcmk__g_strcat(str, rsc_id, " ", NULL); if (interval_ms != 0) { pcmk__g_strcat(str, pcmk__readable_interval(interval_ms), "-interval ", NULL); } pcmk__g_strcat(str, pcmk__readable_action(task, interval_ms), " on ", node_name, NULL); if (status == PCMK_EXEC_DONE) { pcmk__g_strcat(str, " returned '", services_ocf_exitcode_str(rc), "'", NULL); if (!pcmk__str_empty(exit_reason)) { pcmk__g_strcat(str, " (", exit_reason, ")", NULL); } } else { pcmk__g_strcat(str, " could not be executed (", pcmk_exec_status_str(status), NULL); if (!pcmk__str_empty(exit_reason)) { pcmk__g_strcat(str, ": ", exit_reason, NULL); } g_string_append_c(str, ')'); } if (crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &last_change_epoch) == pcmk_ok) { char *s = pcmk__epoch2str(&last_change_epoch, 0); pcmk__g_strcat(str, " at ", s, NULL); free(s); } if (!pcmk__str_empty(exec_time)) { int exec_time_ms = 0; if ((pcmk__scan_min_int(exec_time, &exec_time_ms, 0) == pcmk_rc_ok) && (exec_time_ms > 0)) { pcmk__g_strcat(str, " after ", pcmk__readable_interval(exec_time_ms), NULL); } } out->list_item(out, NULL, "%s", str->str); g_string_free(str, TRUE); free(rsc_id); free(task); } /*! * \internal * \brief Display a failed action with technical details * * \param[in,out] out Output object to use for display * \param[in] xml_op XML containing failed action * \param[in] op_key Operation key of failed action * \param[in] node_name Where failed action occurred * \param[in] rc OCF exit code of failed action * \param[in] status Execution status of failed action * \param[in] exit_reason Exit reason given for failed action * \param[in] exec_time String containing execution time in milliseconds */ static void failed_action_technical(pcmk__output_t *out, const xmlNode *xml_op, const char *op_key, const char *node_name, int rc, int status, const char *exit_reason, const char *exec_time) { const char *call_id = crm_element_value(xml_op, PCMK__XA_CALL_ID); const char *queue_time = crm_element_value(xml_op, PCMK_XA_QUEUE_TIME); const char *exit_status = services_ocf_exitcode_str(rc); const char *lrm_status = pcmk_exec_status_str(status); time_t last_change_epoch = 0; GString *str = NULL; if (pcmk__str_empty(op_key)) { op_key = "unknown operation"; } if (pcmk__str_empty(exit_status)) { exit_status = "unknown exit status"; } if (pcmk__str_empty(call_id)) { call_id = "unknown"; } str = g_string_sized_new(256); g_string_append_printf(str, "%s on %s '%s' (%d): call=%s, status='%s'", op_key, node_name, exit_status, rc, call_id, lrm_status); if (!pcmk__str_empty(exit_reason)) { pcmk__g_strcat(str, ", exitreason='", exit_reason, "'", NULL); } if (crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &last_change_epoch) == pcmk_ok) { char *last_change_str = pcmk__epoch2str(&last_change_epoch, 0); pcmk__g_strcat(str, ", " PCMK_XA_LAST_RC_CHANGE "=" "'", last_change_str, "'", NULL); free(last_change_str); } if (!pcmk__str_empty(queue_time)) { pcmk__g_strcat(str, ", queued=", queue_time, "ms", NULL); } if (!pcmk__str_empty(exec_time)) { pcmk__g_strcat(str, ", exec=", exec_time, "ms", NULL); } out->list_item(out, NULL, "%s", str->str); g_string_free(str, TRUE); } PCMK__OUTPUT_ARGS("failed-action", "xmlNode *", "uint32_t") static int failed_action_default(pcmk__output_t *out, va_list args) { xmlNodePtr xml_op = va_arg(args, xmlNodePtr); uint32_t show_opts = va_arg(args, uint32_t); const char *op_key = pcmk__xe_history_key(xml_op); const char *node_name = crm_element_value(xml_op, PCMK_XA_UNAME); const char *exit_reason = crm_element_value(xml_op, PCMK_XA_EXIT_REASON); const char *exec_time = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); int rc; int status; pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_RC_CODE), &rc, 0); pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_OP_STATUS), &status, 0); if (pcmk__str_empty(node_name)) { node_name = "unknown node"; } if (pcmk_is_set(show_opts, pcmk_show_failed_detail)) { failed_action_technical(out, xml_op, op_key, node_name, rc, status, exit_reason, exec_time); } else { failed_action_friendly(out, xml_op, op_key, node_name, rc, status, exit_reason, exec_time); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("failed-action", "xmlNode *", "uint32_t") static int failed_action_xml(pcmk__output_t *out, va_list args) { xmlNodePtr xml_op = va_arg(args, xmlNodePtr); uint32_t show_opts G_GNUC_UNUSED = va_arg(args, uint32_t); const char *op_key = pcmk__xe_history_key(xml_op); const char *op_key_name = PCMK_XA_OP_KEY; int rc; int status; const char *uname = crm_element_value(xml_op, PCMK_XA_UNAME); const char *call_id = crm_element_value(xml_op, PCMK__XA_CALL_ID); const char *exitstatus = NULL; const char *exit_reason = pcmk__s(crm_element_value(xml_op, PCMK_XA_EXIT_REASON), "none"); const char *status_s = NULL; time_t epoch = 0; gchar *exit_reason_esc = NULL; char *rc_s = NULL; xmlNodePtr node = NULL; if (pcmk__xml_needs_escape(exit_reason, pcmk__xml_escape_attr)) { exit_reason_esc = pcmk__xml_escape(exit_reason, pcmk__xml_escape_attr); exit_reason = exit_reason_esc; } pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_RC_CODE), &rc, 0); pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_OP_STATUS), &status, 0); if (crm_element_value(xml_op, PCMK__XA_OPERATION_KEY) == NULL) { op_key_name = PCMK_XA_ID; } exitstatus = services_ocf_exitcode_str(rc); rc_s = pcmk__itoa(rc); status_s = pcmk_exec_status_str(status); node = pcmk__output_create_xml_node(out, PCMK_XE_FAILURE, op_key_name, op_key, PCMK_XA_NODE, uname, PCMK_XA_EXITSTATUS, exitstatus, PCMK_XA_EXITREASON, exit_reason, PCMK_XA_EXITCODE, rc_s, PCMK_XA_CALL, call_id, PCMK_XA_STATUS, status_s, NULL); free(rc_s); if ((crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &epoch) == pcmk_ok) && (epoch > 0)) { const char *queue_time = crm_element_value(xml_op, PCMK_XA_QUEUE_TIME); const char *exec = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); const char *task = crm_element_value(xml_op, PCMK_XA_OPERATION); guint interval_ms = 0; char *interval_ms_s = NULL; char *rc_change = pcmk__epoch2str(&epoch, crm_time_log_date |crm_time_log_timeofday |crm_time_log_with_timezone); crm_element_value_ms(xml_op, PCMK_META_INTERVAL, &interval_ms); interval_ms_s = crm_strdup_printf("%u", interval_ms); pcmk__xe_set_props(node, PCMK_XA_LAST_RC_CHANGE, rc_change, PCMK_XA_QUEUED, queue_time, PCMK_XA_EXEC, exec, PCMK_XA_INTERVAL, interval_ms_s, PCMK_XA_TASK, task, NULL); free(interval_ms_s); free(rc_change); } g_free(exit_reason_esc); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("failed-action-list", "pcmk_scheduler_t *", "GList *", "GList *", "uint32_t", "bool") static int failed_action_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer = va_arg(args, int); xmlNode *xml_op = NULL; int rc = pcmk_rc_no_output; if (xmlChildElementCount(scheduler->priv->failed) == 0) { return rc; } for (xml_op = pcmk__xe_first_child(scheduler->priv->failed, NULL, NULL, NULL); xml_op != NULL; xml_op = pcmk__xe_next(xml_op)) { char *rsc = NULL; if (!pcmk__str_in_list(crm_element_value(xml_op, PCMK_XA_UNAME), only_node, pcmk__str_star_matches|pcmk__str_casei)) { continue; } if (pcmk_xe_mask_probe_failure(xml_op)) { continue; } if (!parse_op_key(pcmk__xe_history_key(xml_op), &rsc, NULL, NULL)) { continue; } if (!pcmk__str_in_list(rsc, only_rsc, pcmk__str_star_matches)) { free(rsc); continue; } free(rsc); PCMK__OUTPUT_LIST_HEADER(out, print_spacer, rc, "Failed Resource Actions"); out->message(out, "failed-action", xml_op, show_opts); } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } static void status_node(pcmk_node_t *node, xmlNodePtr parent, uint32_t show_opts) { int health = pe__node_health(node); xmlNode *child = NULL; // Cluster membership if (node->details->online) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK_VALUE_ONLINE); pcmk__xe_set_content(child, " online"); } else { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK_VALUE_OFFLINE); pcmk__xe_set_content(child, " OFFLINE"); } // Standby mode if (pcmk_is_set(node->priv->flags, pcmk__node_fail_standby)) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK_VALUE_STANDBY); if (node->details->running_rsc == NULL) { pcmk__xe_set_content(child, " (in standby due to " PCMK_META_ON_FAIL ")"); } else { pcmk__xe_set_content(child, " (in standby due to " PCMK_META_ON_FAIL "," " with active resources)"); } } else if (pcmk_is_set(node->priv->flags, pcmk__node_standby)) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK_VALUE_STANDBY); if (node->details->running_rsc == NULL) { pcmk__xe_set_content(child, " (in standby)"); } else { pcmk__xe_set_content(child, " (in standby, with active resources)"); } } // Maintenance mode if (node->details->maintenance) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK__VALUE_MAINT); pcmk__xe_set_content(child, " (in maintenance mode)"); } // Node health if (health < 0) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK__VALUE_HEALTH_RED); pcmk__xe_set_content(child, " (health is RED)"); } else if (health == 0) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, PCMK__VALUE_HEALTH_YELLOW); pcmk__xe_set_content(child, " (health is YELLOW)"); } // Feature set if (pcmk_is_set(show_opts, pcmk_show_feature_set)) { const char *feature_set = get_node_feature_set(node); if (feature_set != NULL) { child = pcmk__html_create(parent, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, ", feature set %s", feature_set); } } } PCMK__OUTPUT_ARGS("node", "pcmk_node_t *", "uint32_t", "bool", "GList *", "GList *") static int node_html(pcmk__output_t *out, va_list args) { pcmk_node_t *node = va_arg(args, pcmk_node_t *); uint32_t show_opts = va_arg(args, uint32_t); bool full = va_arg(args, int); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); char *node_name = pe__node_display_name(node, pcmk_is_set(show_opts, pcmk_show_node_id)); if (full) { xmlNode *item_node = NULL; xmlNode *child = NULL; if (pcmk_all_flags_set(show_opts, pcmk_show_brief | pcmk_show_rscs_by_node)) { GList *rscs = pe__filter_rsc_list(node->details->running_rsc, only_rsc); out->begin_list(out, NULL, NULL, "%s:", node_name); item_node = pcmk__output_xml_create_parent(out, "li", NULL); child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "Status:"); status_node(node, item_node, show_opts); if (rscs != NULL) { uint32_t new_show_opts = (show_opts | pcmk_show_rsc_only) & ~pcmk_show_inactive_rscs; out->begin_list(out, NULL, NULL, "Resources"); pe__rscs_brief_output(out, rscs, new_show_opts); out->end_list(out); } pcmk__output_xml_pop_parent(out); out->end_list(out); } else if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { GList *lpc2 = NULL; int rc = pcmk_rc_no_output; out->begin_list(out, NULL, NULL, "%s:", node_name); item_node = pcmk__output_xml_create_parent(out, "li", NULL); child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "Status:"); status_node(node, item_node, show_opts); for (lpc2 = node->details->running_rsc; lpc2 != NULL; lpc2 = lpc2->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) lpc2->data; PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Resources"); show_opts |= pcmk_show_rsc_only; out->message(out, pcmk__map_element_name(rsc->priv->xml), show_opts, rsc, only_node, only_rsc); } PCMK__OUTPUT_LIST_FOOTER(out, rc); pcmk__output_xml_pop_parent(out); out->end_list(out); } else { item_node = pcmk__output_create_xml_node(out, "li", NULL); child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "%s:", node_name); status_node(node, item_node, show_opts); } } else { out->begin_list(out, NULL, NULL, "%s:", node_name); } free(node_name); return pcmk_rc_ok; } /*! * \internal * \brief Get a human-friendly textual description of a node's status * * \param[in] node Node to check * * \return String representation of node's status */ static const char * node_text_status(const pcmk_node_t *node) { if (node->details->unclean) { if (node->details->online) { return "UNCLEAN (online)"; } else if (node->details->pending) { return "UNCLEAN (pending)"; } else { return "UNCLEAN (offline)"; } } else if (node->details->pending) { return "pending"; } else if (pcmk_is_set(node->priv->flags, pcmk__node_fail_standby) && node->details->online) { return "standby (" PCMK_META_ON_FAIL ")"; } else if (pcmk_is_set(node->priv->flags, pcmk__node_standby)) { if (!node->details->online) { return "OFFLINE (standby)"; } else if (node->details->running_rsc == NULL) { return "standby"; } else { return "standby (with active resources)"; } } else if (node->details->maintenance) { if (node->details->online) { return "maintenance"; } else { return "OFFLINE (maintenance)"; } } else if (node->details->online) { return "online"; } return "OFFLINE"; } PCMK__OUTPUT_ARGS("node", "pcmk_node_t *", "uint32_t", "bool", "GList *", "GList *") static int node_text(pcmk__output_t *out, va_list args) { pcmk_node_t *node = va_arg(args, pcmk_node_t *); uint32_t show_opts = va_arg(args, uint32_t); bool full = va_arg(args, int); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); if (full) { char *node_name = pe__node_display_name(node, pcmk_is_set(show_opts, pcmk_show_node_id)); GString *str = g_string_sized_new(64); int health = pe__node_health(node); // Create a summary line with node type, name, and status if (pcmk__is_guest_or_bundle_node(node)) { g_string_append(str, "GuestNode"); } else if (pcmk__is_remote_node(node)) { g_string_append(str, "RemoteNode"); } else { g_string_append(str, "Node"); } pcmk__g_strcat(str, " ", node_name, ": ", node_text_status(node), NULL); if (health < 0) { g_string_append(str, " (health is RED)"); } else if (health == 0) { g_string_append(str, " (health is YELLOW)"); } if (pcmk_is_set(show_opts, pcmk_show_feature_set)) { const char *feature_set = get_node_feature_set(node); if (feature_set != NULL) { pcmk__g_strcat(str, ", feature set ", feature_set, NULL); } } /* If we're grouping by node, print its resources */ if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { if (pcmk_is_set(show_opts, pcmk_show_brief)) { GList *rscs = pe__filter_rsc_list(node->details->running_rsc, only_rsc); if (rscs != NULL) { uint32_t new_show_opts = (show_opts | pcmk_show_rsc_only) & ~pcmk_show_inactive_rscs; out->begin_list(out, NULL, NULL, "%s", str->str); out->begin_list(out, NULL, NULL, "Resources"); pe__rscs_brief_output(out, rscs, new_show_opts); out->end_list(out); out->end_list(out); g_list_free(rscs); } } else { GList *gIter2 = NULL; out->begin_list(out, NULL, NULL, "%s", str->str); out->begin_list(out, NULL, NULL, "Resources"); for (gIter2 = node->details->running_rsc; gIter2 != NULL; gIter2 = gIter2->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) gIter2->data; show_opts |= pcmk_show_rsc_only; out->message(out, pcmk__map_element_name(rsc->priv->xml), show_opts, rsc, only_node, only_rsc); } out->end_list(out); out->end_list(out); } } else { out->list_item(out, NULL, "%s", str->str); } g_string_free(str, TRUE); free(node_name); } else { char *node_name = pe__node_display_name(node, pcmk_is_set(show_opts, pcmk_show_node_id)); out->begin_list(out, NULL, NULL, "Node: %s", node_name); free(node_name); } return pcmk_rc_ok; } /*! * \internal * \brief Convert an integer health value to a string representation * * \param[in] health Integer health value * * \retval \c PCMK_VALUE_RED if \p health is less than 0 * \retval \c PCMK_VALUE_YELLOW if \p health is equal to 0 * \retval \c PCMK_VALUE_GREEN if \p health is greater than 0 */ static const char * health_text(int health) { if (health < 0) { return PCMK_VALUE_RED; } else if (health == 0) { return PCMK_VALUE_YELLOW; } else { return PCMK_VALUE_GREEN; } } /*! * \internal * \brief Convert a node variant to a string representation * * \param[in] variant Node variant * * \retval \c PCMK_VALUE_MEMBER if \p node_type is \c pcmk__node_variant_cluster * \retval \c PCMK_VALUE_REMOTE if \p node_type is \c pcmk__node_variant_remote * \retval \c PCMK__VALUE_PING if \p node_type is \c pcmk__node_variant_ping * \retval \c PCMK_VALUE_UNKNOWN otherwise */ static const char * node_variant_text(enum pcmk__node_variant variant) { switch (variant) { case pcmk__node_variant_cluster: return PCMK_VALUE_MEMBER; case pcmk__node_variant_remote: return PCMK_VALUE_REMOTE; case pcmk__node_variant_ping: return PCMK__VALUE_PING; default: return PCMK_VALUE_UNKNOWN; } } PCMK__OUTPUT_ARGS("node", "pcmk_node_t *", "uint32_t", "bool", "GList *", "GList *") static int node_xml(pcmk__output_t *out, va_list args) { pcmk_node_t *node = va_arg(args, pcmk_node_t *); uint32_t show_opts G_GNUC_UNUSED = va_arg(args, uint32_t); bool full = va_arg(args, int); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); if (full) { const char *online = pcmk__btoa(node->details->online); const char *standby = pcmk__flag_text(node->priv->flags, pcmk__node_standby); const char *standby_onfail = pcmk__flag_text(node->priv->flags, pcmk__node_fail_standby); const char *maintenance = pcmk__btoa(node->details->maintenance); const char *pending = pcmk__btoa(node->details->pending); const char *unclean = pcmk__btoa(node->details->unclean); const char *health = health_text(pe__node_health(node)); const char *feature_set = get_node_feature_set(node); const char *shutdown = pcmk__btoa(node->details->shutdown); const char *expected_up = pcmk__flag_text(node->priv->flags, pcmk__node_expected_up); const bool is_dc = pcmk__same_node(node, node->priv->scheduler->dc_node); int length = g_list_length(node->details->running_rsc); char *resources_running = pcmk__itoa(length); const char *node_type = node_variant_text(node->priv->variant); int rc = pcmk_rc_ok; rc = pe__name_and_nvpairs_xml(out, true, PCMK_XE_NODE, PCMK_XA_NAME, node->priv->name, PCMK_XA_ID, node->priv->id, PCMK_XA_ONLINE, online, PCMK_XA_STANDBY, standby, PCMK_XA_STANDBY_ONFAIL, standby_onfail, PCMK_XA_MAINTENANCE, maintenance, PCMK_XA_PENDING, pending, PCMK_XA_UNCLEAN, unclean, PCMK_XA_HEALTH, health, PCMK_XA_FEATURE_SET, feature_set, PCMK_XA_SHUTDOWN, shutdown, PCMK_XA_EXPECTED_UP, expected_up, PCMK_XA_IS_DC, pcmk__btoa(is_dc), PCMK_XA_RESOURCES_RUNNING, resources_running, PCMK_XA_TYPE, node_type, NULL); free(resources_running); CRM_ASSERT(rc == pcmk_rc_ok); if (pcmk__is_guest_or_bundle_node(node)) { xmlNodePtr xml_node = pcmk__output_xml_peek_parent(out); crm_xml_add(xml_node, PCMK_XA_ID_AS_RESOURCE, node->priv->remote->priv->launcher->id); } if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { GList *lpc = NULL; for (lpc = node->details->running_rsc; lpc != NULL; lpc = lpc->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) lpc->data; show_opts |= pcmk_show_rsc_only; out->message(out, pcmk__map_element_name(rsc->priv->xml), show_opts, rsc, only_node, only_rsc); } } out->end_list(out); } else { pcmk__output_xml_create_parent(out, PCMK_XE_NODE, PCMK_XA_NAME, node->priv->name, NULL); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-attribute", "const char *", "const char *", "bool", "int") static int node_attribute_text(pcmk__output_t *out, va_list args) { const char *name = va_arg(args, const char *); const char *value = va_arg(args, const char *); bool add_extra = va_arg(args, int); int expected_score = va_arg(args, int); if (add_extra) { int v; if (value == NULL) { v = 0; } else { pcmk__scan_min_int(value, &v, INT_MIN); } if (v <= 0) { out->list_item(out, NULL, "%-32s\t: %-10s\t: Connectivity is lost", name, value); } else if (v < expected_score) { out->list_item(out, NULL, "%-32s\t: %-10s\t: Connectivity is degraded (Expected=%d)", name, value, expected_score); } else { out->list_item(out, NULL, "%-32s\t: %-10s", name, value); } } else { out->list_item(out, NULL, "%-32s\t: %-10s", name, value); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-attribute", "const char *", "const char *", "bool", "int") static int node_attribute_html(pcmk__output_t *out, va_list args) { const char *name = va_arg(args, const char *); const char *value = va_arg(args, const char *); bool add_extra = va_arg(args, int); int expected_score = va_arg(args, int); if (add_extra) { int v = 0; xmlNodePtr item_node = pcmk__output_create_xml_node(out, "li", NULL); xmlNode *child = NULL; if (value != NULL) { pcmk__scan_min_int(value, &v, INT_MIN); } child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, NULL); pcmk__xe_set_content(child, "%s: %s", name, value); if (v <= 0) { child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "(connectivity is lost)"); } else if (v < expected_score) { child = pcmk__html_create(item_node, PCMK__XE_SPAN, NULL, PCMK__VALUE_BOLD); pcmk__xe_set_content(child, "(connectivity is degraded -- expected %d)", expected_score); } } else { out->list_item(out, NULL, "%s: %s", name, value); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-and-op", "pcmk_scheduler_t *", "xmlNode *") static int node_and_op(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); xmlNodePtr xml_op = va_arg(args, xmlNodePtr); pcmk_resource_t *rsc = NULL; gchar *node_str = NULL; char *last_change_str = NULL; const char *op_rsc = crm_element_value(xml_op, PCMK_XA_RESOURCE); int status; time_t last_change = 0; pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_OP_STATUS), &status, PCMK_EXEC_UNKNOWN); rsc = pe_find_resource(scheduler->priv->resources, op_rsc); if (rsc) { const pcmk_node_t *node = pcmk__current_node(rsc); const char *target_role = g_hash_table_lookup(rsc->priv->meta, PCMK_META_TARGET_ROLE); uint32_t show_opts = pcmk_show_rsc_only | pcmk_show_pending; if (node == NULL) { node = rsc->priv->pending_node; } node_str = pcmk__native_output_string(rsc, rsc_printable_id(rsc), node, show_opts, target_role, false); } else { node_str = crm_strdup_printf("Unknown resource %s", op_rsc); } if (crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &last_change) == pcmk_ok) { const char *exec_time = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); last_change_str = crm_strdup_printf(", %s='%s', exec=%sms", PCMK_XA_LAST_RC_CHANGE, pcmk__trim(ctime(&last_change)), exec_time); } out->list_item(out, NULL, "%s: %s (node=%s, call=%s, rc=%s%s): %s", node_str, pcmk__xe_history_key(xml_op), crm_element_value(xml_op, PCMK_XA_UNAME), crm_element_value(xml_op, PCMK__XA_CALL_ID), crm_element_value(xml_op, PCMK__XA_RC_CODE), last_change_str ? last_change_str : "", pcmk_exec_status_str(status)); g_free(node_str); free(last_change_str); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-and-op", "pcmk_scheduler_t *", "xmlNode *") static int node_and_op_xml(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); xmlNodePtr xml_op = va_arg(args, xmlNodePtr); pcmk_resource_t *rsc = NULL; const char *uname = crm_element_value(xml_op, PCMK_XA_UNAME); const char *call_id = crm_element_value(xml_op, PCMK__XA_CALL_ID); const char *rc_s = crm_element_value(xml_op, PCMK__XA_RC_CODE); const char *status_s = NULL; const char *op_rsc = crm_element_value(xml_op, PCMK_XA_RESOURCE); int status; time_t last_change = 0; xmlNode *node = NULL; pcmk__scan_min_int(crm_element_value(xml_op, PCMK__XA_OP_STATUS), &status, PCMK_EXEC_UNKNOWN); status_s = pcmk_exec_status_str(status); node = pcmk__output_create_xml_node(out, PCMK_XE_OPERATION, PCMK_XA_OP, pcmk__xe_history_key(xml_op), PCMK_XA_NODE, uname, PCMK_XA_CALL, call_id, PCMK_XA_RC, rc_s, PCMK_XA_STATUS, status_s, NULL); rsc = pe_find_resource(scheduler->priv->resources, op_rsc); if (rsc) { const char *class = crm_element_value(rsc->priv->xml, PCMK_XA_CLASS); const char *provider = crm_element_value(rsc->priv->xml, PCMK_XA_PROVIDER); const char *kind = crm_element_value(rsc->priv->xml, PCMK_XA_TYPE); bool has_provider = pcmk_is_set(pcmk_get_ra_caps(class), pcmk_ra_cap_provider); char *agent_tuple = crm_strdup_printf("%s:%s:%s", class, (has_provider? provider : ""), kind); pcmk__xe_set_props(node, PCMK_XA_RSC, rsc_printable_id(rsc), PCMK_XA_AGENT, agent_tuple, NULL); free(agent_tuple); } if (crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &last_change) == pcmk_ok) { const char *last_rc_change = pcmk__trim(ctime(&last_change)); const char *exec_time = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); pcmk__xe_set_props(node, PCMK_XA_LAST_RC_CHANGE, last_rc_change, PCMK_XA_EXEC_TIME, exec_time, NULL); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-attribute", "const char *", "const char *", "bool", "int") static int node_attribute_xml(pcmk__output_t *out, va_list args) { const char *name = va_arg(args, const char *); const char *value = va_arg(args, const char *); bool add_extra = va_arg(args, int); int expected_score = va_arg(args, int); xmlNodePtr node = pcmk__output_create_xml_node(out, PCMK_XE_ATTRIBUTE, PCMK_XA_NAME, name, PCMK_XA_VALUE, value, NULL); if (add_extra) { char *buf = pcmk__itoa(expected_score); crm_xml_add(node, PCMK_XA_EXPECTED, buf); free(buf); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-attribute-list", "pcmk_scheduler_t *", "uint32_t", "bool", "GList *", "GList *") static int node_attribute_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer = va_arg(args, int); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); int rc = pcmk_rc_no_output; /* Display each node's attributes */ for (GList *gIter = scheduler->nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *node = gIter->data; GList *attr_list = NULL; GHashTableIter iter; gpointer key; if (!node || !node->details || !node->details->online) { continue; } g_hash_table_iter_init(&iter, node->priv->attrs); while (g_hash_table_iter_next (&iter, &key, NULL)) { attr_list = filter_attr_list(attr_list, key); } if (attr_list == NULL) { continue; } if (!pcmk__str_in_list(node->priv->name, only_node, pcmk__str_star_matches|pcmk__str_casei)) { g_list_free(attr_list); continue; } PCMK__OUTPUT_LIST_HEADER(out, print_spacer, rc, "Node Attributes"); out->message(out, "node", node, show_opts, false, only_node, only_rsc); for (GList *aIter = attr_list; aIter != NULL; aIter = aIter->next) { const char *name = aIter->data; const char *value = NULL; int expected_score = 0; bool add_extra = false; value = pcmk__node_attr(node, name, NULL, pcmk__rsc_node_current); add_extra = add_extra_info(node, node->details->running_rsc, scheduler, name, &expected_score); /* Print attribute name and value */ out->message(out, "node-attribute", name, value, add_extra, expected_score); } g_list_free(attr_list); out->end_list(out); } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("node-capacity", "const pcmk_node_t *", "const char *") static int node_capacity(pcmk__output_t *out, va_list args) { const pcmk_node_t *node = va_arg(args, pcmk_node_t *); const char *comment = va_arg(args, const char *); char *dump_text = crm_strdup_printf("%s: %s capacity:", comment, pcmk__node_name(node)); g_hash_table_foreach(node->priv->utilization, append_dump_text, &dump_text); out->list_item(out, NULL, "%s", dump_text); free(dump_text); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-capacity", "const pcmk_node_t *", "const char *") static int node_capacity_xml(pcmk__output_t *out, va_list args) { const pcmk_node_t *node = va_arg(args, pcmk_node_t *); const char *uname = node->priv->name; const char *comment = va_arg(args, const char *); xmlNodePtr xml_node = pcmk__output_create_xml_node(out, PCMK_XE_CAPACITY, PCMK_XA_NODE, uname, PCMK_XA_COMMENT, comment, NULL); g_hash_table_foreach(node->priv->utilization, add_dump_node, xml_node); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-history-list", "pcmk_scheduler_t *", "pcmk_node_t *", "xmlNode *", "GList *", "GList *", "uint32_t", "uint32_t") static int node_history_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); pcmk_node_t *node = va_arg(args, pcmk_node_t *); xmlNode *node_state = va_arg(args, xmlNode *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t section_opts = va_arg(args, uint32_t); uint32_t show_opts = va_arg(args, uint32_t); xmlNode *lrm_rsc = NULL; xmlNode *rsc_entry = NULL; int rc = pcmk_rc_no_output; lrm_rsc = pcmk__xe_first_child(node_state, PCMK__XE_LRM, NULL, NULL); lrm_rsc = pcmk__xe_first_child(lrm_rsc, PCMK__XE_LRM_RESOURCES, NULL, NULL); /* Print history of each of the node's resources */ for (rsc_entry = pcmk__xe_first_child(lrm_rsc, PCMK__XE_LRM_RESOURCE, NULL, NULL); rsc_entry != NULL; rsc_entry = pcmk__xe_next_same(rsc_entry)) { const char *rsc_id = crm_element_value(rsc_entry, PCMK_XA_ID); pcmk_resource_t *rsc = NULL; const pcmk_resource_t *parent = NULL; if (rsc_id == NULL) { continue; // Malformed entry } rsc = pe_find_resource(scheduler->priv->resources, rsc_id); if (rsc == NULL) { continue; // Resource was removed from configuration } /* We can't use is_filtered here to filter group resources. For is_filtered, * we have to decide whether to check the parent or not. If we check the * parent, all elements of a group will always be printed because that's how * is_filtered works for groups. If we do not check the parent, sometimes * this will filter everything out. * * For other resource types, is_filtered is okay. */ parent = pe__const_top_resource(rsc, false); if (pcmk__is_group(parent)) { if (!pcmk__str_in_list(rsc_printable_id(rsc), only_rsc, pcmk__str_star_matches) && !pcmk__str_in_list(rsc_printable_id(parent), only_rsc, pcmk__str_star_matches)) { continue; } } else if (rsc->priv->fns->is_filtered(rsc, only_rsc, TRUE)) { continue; } if (!pcmk_is_set(section_opts, pcmk_section_operations)) { time_t last_failure = 0; int failcount = pe_get_failcount(node, rsc, &last_failure, pcmk__fc_default, NULL); if (failcount <= 0) { continue; } if (rc == pcmk_rc_no_output) { rc = pcmk_rc_ok; out->message(out, "node", node, show_opts, false, only_node, only_rsc); } out->message(out, "resource-history", rsc, rsc_id, false, failcount, last_failure, false); } else { GList *op_list = get_operation_list(rsc_entry); pcmk_resource_t *rsc = NULL; if (op_list == NULL) { continue; } rsc = pe_find_resource(scheduler->priv->resources, crm_element_value(rsc_entry, PCMK_XA_ID)); if (rc == pcmk_rc_no_output) { rc = pcmk_rc_ok; out->message(out, "node", node, show_opts, false, only_node, only_rsc); } out->message(out, "resource-operation-list", scheduler, rsc, node, op_list, show_opts); } } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("node-list", "GList *", "GList *", "GList *", "uint32_t", "bool") static int node_list_html(pcmk__output_t *out, va_list args) { GList *nodes = va_arg(args, GList *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer G_GNUC_UNUSED = va_arg(args, int); int rc = pcmk_rc_no_output; for (GList *gIter = nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *node = (pcmk_node_t *) gIter->data; if (!pcmk__str_in_list(node->priv->name, only_node, pcmk__str_star_matches|pcmk__str_casei)) { continue; } PCMK__OUTPUT_LIST_HEADER(out, false, rc, "Node List"); out->message(out, "node", node, show_opts, true, only_node, only_rsc); } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("node-list", "GList *", "GList *", "GList *", "uint32_t", "bool") static int node_list_text(pcmk__output_t *out, va_list args) { GList *nodes = va_arg(args, GList *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer = va_arg(args, int); /* space-separated lists of node names */ GString *online_nodes = NULL; GString *online_remote_nodes = NULL; GString *online_guest_nodes = NULL; GString *offline_nodes = NULL; GString *offline_remote_nodes = NULL; int rc = pcmk_rc_no_output; for (GList *gIter = nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *node = (pcmk_node_t *) gIter->data; char *node_name = pe__node_display_name(node, pcmk_is_set(show_opts, pcmk_show_node_id)); if (!pcmk__str_in_list(node->priv->name, only_node, pcmk__str_star_matches|pcmk__str_casei)) { free(node_name); continue; } PCMK__OUTPUT_LIST_HEADER(out, print_spacer, rc, "Node List"); // Determine whether to display node individually or in a list if (node->details->unclean || node->details->pending || (pcmk_is_set(node->priv->flags, pcmk__node_fail_standby) && node->details->online) || pcmk_is_set(node->priv->flags, pcmk__node_standby) || node->details->maintenance || pcmk_is_set(show_opts, pcmk_show_rscs_by_node) || pcmk_is_set(show_opts, pcmk_show_feature_set) || (pe__node_health(node) <= 0)) { // Display node individually } else if (node->details->online) { // Display online node in a list if (pcmk__is_guest_or_bundle_node(node)) { pcmk__add_word(&online_guest_nodes, 1024, node_name); } else if (pcmk__is_remote_node(node)) { pcmk__add_word(&online_remote_nodes, 1024, node_name); } else { pcmk__add_word(&online_nodes, 1024, node_name); } free(node_name); continue; } else { // Display offline node in a list if (pcmk__is_remote_node(node)) { pcmk__add_word(&offline_remote_nodes, 1024, node_name); } else if (pcmk__is_guest_or_bundle_node(node)) { /* ignore offline guest nodes */ } else { pcmk__add_word(&offline_nodes, 1024, node_name); } free(node_name); continue; } /* If we get here, node is in bad state, or we're grouping by node */ out->message(out, "node", node, show_opts, true, only_node, only_rsc); free(node_name); } /* If we're not grouping by node, summarize nodes by status */ if (online_nodes != NULL) { out->list_item(out, "Online", "[ %s ]", (const char *) online_nodes->str); g_string_free(online_nodes, TRUE); } if (offline_nodes != NULL) { out->list_item(out, "OFFLINE", "[ %s ]", (const char *) offline_nodes->str); g_string_free(offline_nodes, TRUE); } if (online_remote_nodes) { out->list_item(out, "RemoteOnline", "[ %s ]", (const char *) online_remote_nodes->str); g_string_free(online_remote_nodes, TRUE); } if (offline_remote_nodes) { out->list_item(out, "RemoteOFFLINE", "[ %s ]", (const char *) offline_remote_nodes->str); g_string_free(offline_remote_nodes, TRUE); } if (online_guest_nodes != NULL) { out->list_item(out, "GuestOnline", "[ %s ]", (const char *) online_guest_nodes->str); g_string_free(online_guest_nodes, TRUE); } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("node-list", "GList *", "GList *", "GList *", "uint32_t", "bool") static int node_list_xml(pcmk__output_t *out, va_list args) { GList *nodes = va_arg(args, GList *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer G_GNUC_UNUSED = va_arg(args, int); /* PCMK_XE_NODES acts as the list's element name for CLI tools that use * pcmk__output_enable_list_element. Otherwise PCMK_XE_NODES is the * value of the list's PCMK_XA_NAME attribute. */ out->begin_list(out, NULL, NULL, PCMK_XE_NODES); for (GList *gIter = nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *node = (pcmk_node_t *) gIter->data; if (!pcmk__str_in_list(node->priv->name, only_node, pcmk__str_star_matches|pcmk__str_casei)) { continue; } out->message(out, "node", node, show_opts, true, only_node, only_rsc); } out->end_list(out); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-summary", "pcmk_scheduler_t *", "GList *", "GList *", "uint32_t", "uint32_t", "bool") static int node_summary(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); uint32_t section_opts = va_arg(args, uint32_t); uint32_t show_opts = va_arg(args, uint32_t); bool print_spacer = va_arg(args, int); xmlNode *node_state = NULL; xmlNode *cib_status = pcmk_find_cib_element(scheduler->input, PCMK_XE_STATUS); int rc = pcmk_rc_no_output; if (xmlChildElementCount(cib_status) == 0) { return rc; } for (node_state = pcmk__xe_first_child(cib_status, PCMK__XE_NODE_STATE, NULL, NULL); node_state != NULL; node_state = pcmk__xe_next_same(node_state)) { pcmk_node_t *node = pe_find_node_id(scheduler->nodes, pcmk__xe_id(node_state)); if (!node || !node->details || !node->details->online) { continue; } if (!pcmk__str_in_list(node->priv->name, only_node, pcmk__str_star_matches|pcmk__str_casei)) { continue; } PCMK__OUTPUT_LIST_HEADER(out, print_spacer, rc, pcmk_is_set(section_opts, pcmk_section_operations) ? "Operations" : "Migration Summary"); out->message(out, "node-history-list", scheduler, node, node_state, only_node, only_rsc, section_opts, show_opts); } PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("node-weight", "const pcmk_resource_t *", "const char *", "const char *", "const char *") static int node_weight(pcmk__output_t *out, va_list args) { const pcmk_resource_t *rsc = va_arg(args, const pcmk_resource_t *); const char *prefix = va_arg(args, const char *); const char *uname = va_arg(args, const char *); const char *score = va_arg(args, const char *); if (rsc) { out->list_item(out, NULL, "%s: %s allocation score on %s: %s", prefix, rsc->id, uname, score); } else { out->list_item(out, NULL, "%s: %s = %s", prefix, uname, score); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("node-weight", "const pcmk_resource_t *", "const char *", "const char *", "const char *") static int node_weight_xml(pcmk__output_t *out, va_list args) { const pcmk_resource_t *rsc = va_arg(args, const pcmk_resource_t *); const char *prefix = va_arg(args, const char *); const char *uname = va_arg(args, const char *); const char *score = va_arg(args, const char *); xmlNodePtr node = pcmk__output_create_xml_node(out, PCMK_XE_NODE_WEIGHT, PCMK_XA_FUNCTION, prefix, PCMK_XA_NODE, uname, PCMK_XA_SCORE, score, NULL); if (rsc) { crm_xml_add(node, PCMK_XA_ID, rsc->id); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("op-history", "xmlNode *", "const char *", "const char *", "int", "uint32_t") static int op_history_text(pcmk__output_t *out, va_list args) { xmlNodePtr xml_op = va_arg(args, xmlNodePtr); const char *task = va_arg(args, const char *); const char *interval_ms_s = va_arg(args, const char *); int rc = va_arg(args, int); uint32_t show_opts = va_arg(args, uint32_t); char *buf = op_history_string(xml_op, task, interval_ms_s, rc, pcmk_is_set(show_opts, pcmk_show_timing)); out->list_item(out, NULL, "%s", buf); free(buf); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("op-history", "xmlNode *", "const char *", "const char *", "int", "uint32_t") static int op_history_xml(pcmk__output_t *out, va_list args) { xmlNodePtr xml_op = va_arg(args, xmlNodePtr); const char *task = va_arg(args, const char *); const char *interval_ms_s = va_arg(args, const char *); int rc = va_arg(args, int); uint32_t show_opts = va_arg(args, uint32_t); const char *call_id = crm_element_value(xml_op, PCMK__XA_CALL_ID); char *rc_s = pcmk__itoa(rc); const char *rc_text = services_ocf_exitcode_str(rc); xmlNodePtr node = NULL; node = pcmk__output_create_xml_node(out, PCMK_XE_OPERATION_HISTORY, PCMK_XA_CALL, call_id, PCMK_XA_TASK, task, PCMK_XA_RC, rc_s, PCMK_XA_RC_TEXT, rc_text, NULL); free(rc_s); if (interval_ms_s && !pcmk__str_eq(interval_ms_s, "0", pcmk__str_casei)) { char *s = crm_strdup_printf("%sms", interval_ms_s); crm_xml_add(node, PCMK_XA_INTERVAL, s); free(s); } if (pcmk_is_set(show_opts, pcmk_show_timing)) { const char *value = NULL; time_t epoch = 0; if ((crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &epoch) == pcmk_ok) && (epoch > 0)) { char *s = pcmk__epoch2str(&epoch, 0); crm_xml_add(node, PCMK_XA_LAST_RC_CHANGE, s); free(s); } value = crm_element_value(xml_op, PCMK_XA_EXEC_TIME); if (value) { char *s = crm_strdup_printf("%sms", value); crm_xml_add(node, PCMK_XA_EXEC_TIME, s); free(s); } value = crm_element_value(xml_op, PCMK_XA_QUEUE_TIME); if (value) { char *s = crm_strdup_printf("%sms", value); crm_xml_add(node, PCMK_XA_QUEUE_TIME, s); free(s); } } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("promotion-score", "pcmk_resource_t *", "pcmk_node_t *", "const char *") static int promotion_score(pcmk__output_t *out, va_list args) { pcmk_resource_t *child_rsc = va_arg(args, pcmk_resource_t *); pcmk_node_t *chosen = va_arg(args, pcmk_node_t *); const char *score = va_arg(args, const char *); if (chosen == NULL) { out->list_item(out, NULL, "%s promotion score (inactive): %s", child_rsc->id, score); } else { out->list_item(out, NULL, "%s promotion score on %s: %s", child_rsc->id, pcmk__node_name(chosen), score); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("promotion-score", "pcmk_resource_t *", "pcmk_node_t *", "const char *") static int promotion_score_xml(pcmk__output_t *out, va_list args) { pcmk_resource_t *child_rsc = va_arg(args, pcmk_resource_t *); pcmk_node_t *chosen = va_arg(args, pcmk_node_t *); const char *score = va_arg(args, const char *); xmlNodePtr node = pcmk__output_create_xml_node(out, PCMK_XE_PROMOTION_SCORE, PCMK_XA_ID, child_rsc->id, PCMK_XA_SCORE, score, NULL); if (chosen) { crm_xml_add(node, PCMK_XA_NODE, chosen->priv->name); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("resource-config", "const pcmk_resource_t *", "bool") static int resource_config(pcmk__output_t *out, va_list args) { const pcmk_resource_t *rsc = va_arg(args, const pcmk_resource_t *); GString *xml_buf = g_string_sized_new(1024); bool raw = va_arg(args, int); formatted_xml_buf(rsc, xml_buf, raw); out->output_xml(out, PCMK_XE_XML, xml_buf->str); g_string_free(xml_buf, TRUE); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("resource-config", "const pcmk_resource_t *", "bool") static int resource_config_text(pcmk__output_t *out, va_list args) { pcmk__formatted_printf(out, "Resource XML:\n"); return resource_config(out, args); } PCMK__OUTPUT_ARGS("resource-history", "pcmk_resource_t *", "const char *", "bool", "int", "time_t", "bool") static int resource_history_text(pcmk__output_t *out, va_list args) { pcmk_resource_t *rsc = va_arg(args, pcmk_resource_t *); const char *rsc_id = va_arg(args, const char *); bool all = va_arg(args, int); int failcount = va_arg(args, int); time_t last_failure = va_arg(args, time_t); bool as_header = va_arg(args, int); char *buf = resource_history_string(rsc, rsc_id, all, failcount, last_failure); if (as_header) { out->begin_list(out, NULL, NULL, "%s", buf); } else { out->list_item(out, NULL, "%s", buf); } free(buf); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("resource-history", "pcmk_resource_t *", "const char *", "bool", "int", "time_t", "bool") static int resource_history_xml(pcmk__output_t *out, va_list args) { pcmk_resource_t *rsc = va_arg(args, pcmk_resource_t *); const char *rsc_id = va_arg(args, const char *); bool all = va_arg(args, int); int failcount = va_arg(args, int); time_t last_failure = va_arg(args, time_t); bool as_header = va_arg(args, int); xmlNodePtr node = pcmk__output_xml_create_parent(out, PCMK_XE_RESOURCE_HISTORY, PCMK_XA_ID, rsc_id, NULL); if (rsc == NULL) { pcmk__xe_set_bool_attr(node, PCMK_XA_ORPHAN, true); } else if (all || failcount || last_failure > 0) { char *migration_s = pcmk__itoa(rsc->priv->ban_after_failures); pcmk__xe_set_props(node, PCMK_XA_ORPHAN, PCMK_VALUE_FALSE, PCMK_META_MIGRATION_THRESHOLD, migration_s, NULL); free(migration_s); if (failcount > 0) { char *s = pcmk__itoa(failcount); crm_xml_add(node, PCMK_XA_FAIL_COUNT, s); free(s); } if (last_failure > 0) { char *s = pcmk__epoch2str(&last_failure, 0); crm_xml_add(node, PCMK_XA_LAST_FAILURE, s); free(s); } } if (!as_header) { pcmk__output_xml_pop_parent(out); } return pcmk_rc_ok; } static void print_resource_header(pcmk__output_t *out, uint32_t show_opts) { if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { /* Active resources have already been printed by node */ out->begin_list(out, NULL, NULL, "Inactive Resources"); } else if (pcmk_is_set(show_opts, pcmk_show_inactive_rscs)) { out->begin_list(out, NULL, NULL, "Full List of Resources"); } else { out->begin_list(out, NULL, NULL, "Active Resources"); } } PCMK__OUTPUT_ARGS("resource-list", "pcmk_scheduler_t *", "uint32_t", "bool", "GList *", "GList *", "bool") static int resource_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler = va_arg(args, pcmk_scheduler_t *); uint32_t show_opts = va_arg(args, uint32_t); bool print_summary = va_arg(args, int); GList *only_node = va_arg(args, GList *); GList *only_rsc = va_arg(args, GList *); bool print_spacer = va_arg(args, int); GList *rsc_iter; int rc = pcmk_rc_no_output; bool printed_header = false; /* If we already showed active resources by node, and * we're not showing inactive resources, we have nothing to do */ if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node) && !pcmk_is_set(show_opts, pcmk_show_inactive_rscs)) { return rc; } /* If we haven't already printed resources grouped by node, * and brief output was requested, print resource summary */ if (pcmk_is_set(show_opts, pcmk_show_brief) && !pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { GList *rscs = pe__filter_rsc_list(scheduler->priv->resources, only_rsc); PCMK__OUTPUT_SPACER_IF(out, print_spacer); print_resource_header(out, show_opts); printed_header = true; rc = pe__rscs_brief_output(out, rscs, show_opts); g_list_free(rscs); } /* For each resource, display it if appropriate */ for (rsc_iter = scheduler->priv->resources; rsc_iter != NULL; rsc_iter = rsc_iter->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) rsc_iter->data; int x; /* Complex resources may have some sub-resources active and some inactive */ gboolean is_active = rsc->priv->fns->active(rsc, TRUE); gboolean partially_active = rsc->priv->fns->active(rsc, FALSE); /* Skip inactive orphans (deleted but still in CIB) */ if (pcmk_is_set(rsc->flags, pcmk__rsc_removed) && !is_active) { continue; /* Skip active resources if we already displayed them by node */ } else if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { if (is_active) { continue; } /* Skip primitives already counted in a brief summary */ } else if (pcmk_is_set(show_opts, pcmk_show_brief) && pcmk__is_primitive(rsc)) { continue; /* Skip resources that aren't at least partially active, * unless we're displaying inactive resources */ } else if (!partially_active && !pcmk_is_set(show_opts, pcmk_show_inactive_rscs)) { continue; } else if (partially_active && !pe__rsc_running_on_any(rsc, only_node)) { continue; } if (!printed_header) { PCMK__OUTPUT_SPACER_IF(out, print_spacer); print_resource_header(out, show_opts); printed_header = true; } /* Print this resource */ x = out->message(out, pcmk__map_element_name(rsc->priv->xml), show_opts, rsc, only_node, only_rsc); if (x == pcmk_rc_ok) { rc = pcmk_rc_ok; } } if (print_summary && rc != pcmk_rc_ok) { if (!printed_header) { PCMK__OUTPUT_SPACER_IF(out, print_spacer); print_resource_header(out, show_opts); printed_header = true; } if (pcmk_is_set(show_opts, pcmk_show_rscs_by_node)) { out->list_item(out, NULL, "No inactive resources"); } else if (pcmk_is_set(show_opts, pcmk_show_inactive_rscs)) { out->list_item(out, NULL, "No resources"); } else { out->list_item(out, NULL, "No active resources"); } } if (printed_header) { out->end_list(out); } return rc; } PCMK__OUTPUT_ARGS("resource-operation-list", "pcmk_scheduler_t *", "pcmk_resource_t *", "pcmk_node_t *", "GList *", "uint32_t") static int resource_operation_list(pcmk__output_t *out, va_list args) { pcmk_scheduler_t *scheduler G_GNUC_UNUSED = va_arg(args, pcmk_scheduler_t *); pcmk_resource_t *rsc = va_arg(args, pcmk_resource_t *); pcmk_node_t *node = va_arg(args, pcmk_node_t *); GList *op_list = va_arg(args, GList *); uint32_t show_opts = va_arg(args, uint32_t); GList *gIter = NULL; int rc = pcmk_rc_no_output; /* Print each operation */ for (gIter = op_list; gIter != NULL; gIter = gIter->next) { xmlNode *xml_op = (xmlNode *) gIter->data; const char *task = crm_element_value(xml_op, PCMK_XA_OPERATION); const char *interval_ms_s = crm_element_value(xml_op, PCMK_META_INTERVAL); const char *op_rc = crm_element_value(xml_op, PCMK__XA_RC_CODE); int op_rc_i; pcmk__scan_min_int(op_rc, &op_rc_i, 0); /* Display 0-interval monitors as "probe" */ if (pcmk__str_eq(task, PCMK_ACTION_MONITOR, pcmk__str_casei) && pcmk__str_eq(interval_ms_s, "0", pcmk__str_null_matches | pcmk__str_casei)) { task = "probe"; } /* If this is the first printed operation, print heading for resource */ if (rc == pcmk_rc_no_output) { time_t last_failure = 0; int failcount = pe_get_failcount(node, rsc, &last_failure, pcmk__fc_default, NULL); out->message(out, "resource-history", rsc, rsc_printable_id(rsc), true, failcount, last_failure, true); rc = pcmk_rc_ok; } /* Print the operation */ out->message(out, "op-history", xml_op, task, interval_ms_s, op_rc_i, show_opts); } /* Free the list we created (no need to free the individual items) */ g_list_free(op_list); PCMK__OUTPUT_LIST_FOOTER(out, rc); return rc; } PCMK__OUTPUT_ARGS("resource-util", "pcmk_resource_t *", "pcmk_node_t *", "const char *") static int resource_util(pcmk__output_t *out, va_list args) { pcmk_resource_t *rsc = va_arg(args, pcmk_resource_t *); pcmk_node_t *node = va_arg(args, pcmk_node_t *); const char *fn = va_arg(args, const char *); char *dump_text = crm_strdup_printf("%s: %s utilization on %s:", fn, rsc->id, pcmk__node_name(node)); g_hash_table_foreach(rsc->priv->utilization, append_dump_text, &dump_text); out->list_item(out, NULL, "%s", dump_text); free(dump_text); return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("resource-util", "pcmk_resource_t *", "pcmk_node_t *", "const char *") static int resource_util_xml(pcmk__output_t *out, va_list args) { pcmk_resource_t *rsc = va_arg(args, pcmk_resource_t *); pcmk_node_t *node = va_arg(args, pcmk_node_t *); const char *uname = node->priv->name; const char *fn = va_arg(args, const char *); xmlNodePtr xml_node = NULL; xml_node = pcmk__output_create_xml_node(out, PCMK_XE_UTILIZATION, PCMK_XA_RESOURCE, rsc->id, PCMK_XA_NODE, uname, PCMK_XA_FUNCTION, fn, NULL); g_hash_table_foreach(rsc->priv->utilization, add_dump_node, xml_node); return pcmk_rc_ok; } static inline const char * ticket_status(pcmk__ticket_t *ticket) { if (pcmk_is_set(ticket->flags, pcmk__ticket_granted)) { return PCMK_VALUE_GRANTED; } return PCMK_VALUE_REVOKED; } static inline const char * ticket_standby_text(pcmk__ticket_t *ticket) { return pcmk_is_set(ticket->flags, pcmk__ticket_standby)? " [standby]" : ""; } PCMK__OUTPUT_ARGS("ticket", "pcmk__ticket_t *", "bool", "bool") static int ticket_default(pcmk__output_t *out, va_list args) { pcmk__ticket_t *ticket = va_arg(args, pcmk__ticket_t *); bool raw = va_arg(args, int); bool details = va_arg(args, int); GString *detail_str = NULL; if (raw) { out->list_item(out, ticket->id, "%s", ticket->id); return pcmk_rc_ok; } if (details && g_hash_table_size(ticket->state) > 0) { GHashTableIter iter; const char *name = NULL; const char *value = NULL; bool already_added = false; detail_str = g_string_sized_new(100); pcmk__g_strcat(detail_str, "\t(", NULL); g_hash_table_iter_init(&iter, ticket->state); while (g_hash_table_iter_next(&iter, (void **) &name, (void **) &value)) { if (already_added) { g_string_append_printf(detail_str, ", %s=", name); } else { g_string_append_printf(detail_str, "%s=", name); already_added = true; } if (pcmk__str_any_of(name, PCMK_XA_LAST_GRANTED, "expires", NULL)) { char *epoch_str = NULL; long long time_ll; - pcmk__scan_ll(value, &time_ll, 0); + (void) pcmk__scan_ll(value, &time_ll, 0); epoch_str = pcmk__epoch2str((const time_t *) &time_ll, 0); pcmk__g_strcat(detail_str, epoch_str, NULL); free(epoch_str); } else { pcmk__g_strcat(detail_str, value, NULL); } } pcmk__g_strcat(detail_str, ")", NULL); } if (ticket->last_granted > -1) { /* Prior to the introduction of the details & raw arguments to this * function, last-granted would always be added in this block. We need * to preserve that behavior. At the same time, we also need to preserve * the existing behavior from crm_ticket, which would include last-granted * as part of the (...) detail string. * * Luckily we can check detail_str - if it's NULL, either there were no * details, or we are preserving the previous behavior of this function. * If it's not NULL, we are either preserving the previous behavior of * crm_ticket or we were given details=true as an argument. */ if (detail_str == NULL) { char *epoch_str = pcmk__epoch2str(&(ticket->last_granted), 0); out->list_item(out, NULL, "%s\t%s%s last-granted=\"%s\"", ticket->id, ticket_status(ticket), ticket_standby_text(ticket), pcmk__s(epoch_str, "")); free(epoch_str); } else { out->list_item(out, NULL, "%s\t%s%s %s", ticket->id, ticket_status(ticket), ticket_standby_text(ticket), detail_str->str); } } else { out->list_item(out, NULL, "%s\t%s%s%s", ticket->id, ticket_status(ticket), ticket_standby_text(ticket), detail_str != NULL ? detail_str->str : ""); } if (detail_str != NULL) { g_string_free(detail_str, TRUE); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("ticket", "pcmk__ticket_t *", "bool", "bool") static int ticket_xml(pcmk__output_t *out, va_list args) { pcmk__ticket_t *ticket = va_arg(args, pcmk__ticket_t *); bool raw G_GNUC_UNUSED = va_arg(args, int); bool details G_GNUC_UNUSED = va_arg(args, int); const char *standby = pcmk__flag_text(ticket->flags, pcmk__ticket_standby); xmlNodePtr node = NULL; GHashTableIter iter; const char *name = NULL; const char *value = NULL; node = pcmk__output_create_xml_node(out, PCMK_XE_TICKET, PCMK_XA_ID, ticket->id, PCMK_XA_STATUS, ticket_status(ticket), PCMK_XA_STANDBY, standby, NULL); if (ticket->last_granted > -1) { char *buf = pcmk__epoch2str(&ticket->last_granted, 0); crm_xml_add(node, PCMK_XA_LAST_GRANTED, buf); free(buf); } g_hash_table_iter_init(&iter, ticket->state); while (g_hash_table_iter_next(&iter, (void **) &name, (void **) &value)) { /* PCMK_XA_LAST_GRANTED and "expires" are already added by the check * for ticket->last_granted above. */ if (pcmk__str_any_of(name, PCMK_XA_LAST_GRANTED, PCMK_XA_EXPIRES, NULL)) { continue; } crm_xml_add(node, name, value); } return pcmk_rc_ok; } PCMK__OUTPUT_ARGS("ticket-list", "GHashTable *", "bool", "bool", "bool") static int ticket_list(pcmk__output_t *out, va_list args) { GHashTable *tickets = va_arg(args, GHashTable *); bool print_spacer = va_arg(args, int); bool raw = va_arg(args, int); bool details = va_arg(args, int); GHashTableIter iter; gpointer value; if (g_hash_table_size(tickets) == 0) { return pcmk_rc_no_output; } PCMK__OUTPUT_SPACER_IF(out, print_spacer); /* Print section heading */ out->begin_list(out, NULL, NULL, "Tickets"); /* Print each ticket */ g_hash_table_iter_init(&iter, tickets); while (g_hash_table_iter_next(&iter, NULL, &value)) { pcmk__ticket_t *ticket = (pcmk__ticket_t *) value; out->message(out, "ticket", ticket, raw, details); } /* Close section */ out->end_list(out); return pcmk_rc_ok; } static pcmk__message_entry_t fmt_functions[] = { { "ban", "default", ban_text }, { "ban", "html", ban_html }, { "ban", "xml", ban_xml }, { "ban-list", "default", ban_list }, { "bundle", "default", pe__bundle_text }, { "bundle", "xml", pe__bundle_xml }, { "bundle", "html", pe__bundle_html }, { "clone", "default", pe__clone_default }, { "clone", "xml", pe__clone_xml }, { "cluster-counts", "default", cluster_counts_text }, { "cluster-counts", "html", cluster_counts_html }, { "cluster-counts", "xml", cluster_counts_xml }, { "cluster-dc", "default", cluster_dc_text }, { "cluster-dc", "html", cluster_dc_html }, { "cluster-dc", "xml", cluster_dc_xml }, { "cluster-options", "default", cluster_options_text }, { "cluster-options", "html", cluster_options_html }, { "cluster-options", "log", cluster_options_log }, { "cluster-options", "xml", cluster_options_xml }, { "cluster-summary", "default", cluster_summary }, { "cluster-summary", "html", cluster_summary_html }, { "cluster-stack", "default", cluster_stack_text }, { "cluster-stack", "html", cluster_stack_html }, { "cluster-stack", "xml", cluster_stack_xml }, { "cluster-times", "default", cluster_times_text }, { "cluster-times", "html", cluster_times_html }, { "cluster-times", "xml", cluster_times_xml }, { "failed-action", "default", failed_action_default }, { "failed-action", "xml", failed_action_xml }, { "failed-action-list", "default", failed_action_list }, { "group", "default", pe__group_default}, { "group", "xml", pe__group_xml }, { "maint-mode", "text", cluster_maint_mode_text }, { "node", "default", node_text }, { "node", "html", node_html }, { "node", "xml", node_xml }, { "node-and-op", "default", node_and_op }, { "node-and-op", "xml", node_and_op_xml }, { "node-capacity", "default", node_capacity }, { "node-capacity", "xml", node_capacity_xml }, { "node-history-list", "default", node_history_list }, { "node-list", "default", node_list_text }, { "node-list", "html", node_list_html }, { "node-list", "xml", node_list_xml }, { "node-weight", "default", node_weight }, { "node-weight", "xml", node_weight_xml }, { "node-attribute", "default", node_attribute_text }, { "node-attribute", "html", node_attribute_html }, { "node-attribute", "xml", node_attribute_xml }, { "node-attribute-list", "default", node_attribute_list }, { "node-summary", "default", node_summary }, { "op-history", "default", op_history_text }, { "op-history", "xml", op_history_xml }, { "primitive", "default", pe__resource_text }, { "primitive", "xml", pe__resource_xml }, { "primitive", "html", pe__resource_html }, { "promotion-score", "default", promotion_score }, { "promotion-score", "xml", promotion_score_xml }, { "resource-config", "default", resource_config }, { "resource-config", "text", resource_config_text }, { "resource-history", "default", resource_history_text }, { "resource-history", "xml", resource_history_xml }, { "resource-list", "default", resource_list }, { "resource-operation-list", "default", resource_operation_list }, { "resource-util", "default", resource_util }, { "resource-util", "xml", resource_util_xml }, { "ticket", "default", ticket_default }, { "ticket", "xml", ticket_xml }, { "ticket-list", "default", ticket_list }, { NULL, NULL, NULL } }; void pe__register_messages(pcmk__output_t *out) { pcmk__register_messages(out, fmt_functions); } diff --git a/lib/pengine/unpack.c b/lib/pengine/unpack.c index 5e47fb64f4..3228a0b9f0 100644 --- a/lib/pengine/unpack.c +++ b/lib/pengine/unpack.c @@ -1,5143 +1,5152 @@ /* * Copyright 2004-2024 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #include #include #include #include #include #include #include #include #include #include #include #include CRM_TRACE_INIT_DATA(pe_status); // A (parsed) resource action history entry struct action_history { pcmk_resource_t *rsc; // Resource that history is for pcmk_node_t *node; // Node that history is for xmlNode *xml; // History entry XML // Parsed from entry XML const char *id; // XML ID of history entry const char *key; // Operation key of action const char *task; // Action name const char *exit_reason; // Exit reason given for result guint interval_ms; // Action interval int call_id; // Call ID of action int expected_exit_status; // Expected exit status of action int exit_status; // Actual exit status of action int execution_status; // Execution status of action }; /* This uses pcmk__set_flags_as()/pcmk__clear_flags_as() directly rather than * use pcmk__set_scheduler_flags()/pcmk__clear_scheduler_flags() so that the * flag is stringified more readably in log messages. */ #define set_config_flag(scheduler, option, flag) do { \ GHashTable *config_hash = (scheduler)->priv->options; \ const char *scf_value = pcmk__cluster_option(config_hash, (option)); \ \ if (scf_value != NULL) { \ if (crm_is_true(scf_value)) { \ (scheduler)->flags = pcmk__set_flags_as(__func__, __LINE__, \ LOG_TRACE, "Scheduler", \ crm_system_name, (scheduler)->flags, \ (flag), #flag); \ } else { \ (scheduler)->flags = pcmk__clear_flags_as(__func__, __LINE__, \ LOG_TRACE, "Scheduler", \ crm_system_name, (scheduler)->flags, \ (flag), #flag); \ } \ } \ } while(0) static void unpack_rsc_op(pcmk_resource_t *rsc, pcmk_node_t *node, xmlNode *xml_op, xmlNode **last_failure, enum pcmk__on_fail *failed); static void determine_remote_online_status(pcmk_scheduler_t *scheduler, pcmk_node_t *this_node); static void add_node_attrs(const xmlNode *xml_obj, pcmk_node_t *node, bool overwrite, pcmk_scheduler_t *scheduler); static void determine_online_status(const xmlNode *node_state, pcmk_node_t *this_node, pcmk_scheduler_t *scheduler); static void unpack_node_lrm(pcmk_node_t *node, const xmlNode *xml, pcmk_scheduler_t *scheduler); /*! * \internal * \brief Check whether a node is a dangling guest node * * \param[in] node Node to check * * \return true if \p node had a Pacemaker Remote connection resource with a * launcher that was removed from the CIB, otherwise false. */ static bool is_dangling_guest_node(pcmk_node_t *node) { return pcmk__is_pacemaker_remote_node(node) && (node->priv->remote != NULL) && (node->priv->remote->priv->launcher == NULL) && pcmk_is_set(node->priv->remote->flags, pcmk__rsc_removed_launched); } /*! * \brief Schedule a fence action for a node * * \param[in,out] scheduler Scheduler data * \param[in,out] node Node to fence * \param[in] reason Text description of why fencing is needed * \param[in] priority_delay Whether to consider * \c PCMK_OPT_PRIORITY_FENCING_DELAY */ void pe_fence_node(pcmk_scheduler_t *scheduler, pcmk_node_t *node, const char *reason, bool priority_delay) { CRM_CHECK(node, return); if (pcmk__is_guest_or_bundle_node(node)) { // Fence a guest or bundle node by marking its launcher as failed pcmk_resource_t *rsc = node->priv->remote->priv->launcher; if (!pcmk_is_set(rsc->flags, pcmk__rsc_failed)) { if (!pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { crm_notice("Not fencing guest node %s " "(otherwise would because %s): " "its guest resource %s is unmanaged", pcmk__node_name(node), reason, rsc->id); } else { pcmk__sched_warn(scheduler, "Guest node %s will be fenced " "(by recovering its guest resource %s): %s", pcmk__node_name(node), rsc->id, reason); /* We don't mark the node as unclean because that would prevent the * node from running resources. We want to allow it to run resources * in this transition if the recovery succeeds. */ pcmk__set_node_flags(node, pcmk__node_remote_reset); pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); } } } else if (is_dangling_guest_node(node)) { crm_info("Cleaning up dangling connection for guest node %s: " "fencing was already done because %s, " "and guest resource no longer exists", pcmk__node_name(node), reason); pcmk__set_rsc_flags(node->priv->remote, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); } else if (pcmk__is_remote_node(node)) { pcmk_resource_t *rsc = node->priv->remote; if ((rsc != NULL) && !pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { crm_notice("Not fencing remote node %s " "(otherwise would because %s): connection is unmanaged", pcmk__node_name(node), reason); } else if (!pcmk_is_set(node->priv->flags, pcmk__node_remote_reset)) { pcmk__set_node_flags(node, pcmk__node_remote_reset); pcmk__sched_warn(scheduler, "Remote node %s %s: %s", pcmk__node_name(node), pe_can_fence(scheduler, node)? "will be fenced" : "is unclean", reason); } node->details->unclean = TRUE; // No need to apply PCMK_OPT_PRIORITY_FENCING_DELAY for remote nodes pe_fence_op(node, NULL, TRUE, reason, FALSE, scheduler); } else if (node->details->unclean) { crm_trace("Cluster node %s %s because %s", pcmk__node_name(node), pe_can_fence(scheduler, node)? "would also be fenced" : "also is unclean", reason); } else { pcmk__sched_warn(scheduler, "Cluster node %s %s: %s", pcmk__node_name(node), pe_can_fence(scheduler, node)? "will be fenced" : "is unclean", reason); node->details->unclean = TRUE; pe_fence_op(node, NULL, TRUE, reason, priority_delay, scheduler); } } // @TODO xpaths can't handle templates, rules, or id-refs // nvpair with provides or requires set to unfencing #define XPATH_UNFENCING_NVPAIR PCMK_XE_NVPAIR \ "[(@" PCMK_XA_NAME "='" PCMK_STONITH_PROVIDES "'" \ "or @" PCMK_XA_NAME "='" PCMK_META_REQUIRES "') " \ "and @" PCMK_XA_VALUE "='" PCMK_VALUE_UNFENCING "']" // unfencing in rsc_defaults or any resource #define XPATH_ENABLE_UNFENCING \ "/" PCMK_XE_CIB "/" PCMK_XE_CONFIGURATION "/" PCMK_XE_RESOURCES \ "//" PCMK_XE_META_ATTRIBUTES "/" XPATH_UNFENCING_NVPAIR \ "|/" PCMK_XE_CIB "/" PCMK_XE_CONFIGURATION "/" PCMK_XE_RSC_DEFAULTS \ "/" PCMK_XE_META_ATTRIBUTES "/" XPATH_UNFENCING_NVPAIR static void set_if_xpath(uint64_t flag, const char *xpath, pcmk_scheduler_t *scheduler) { xmlXPathObjectPtr result = NULL; if (!pcmk_is_set(scheduler->flags, flag)) { result = xpath_search(scheduler->input, xpath); if (result && (numXpathResults(result) > 0)) { pcmk__set_scheduler_flags(scheduler, flag); } freeXpathObject(result); } } gboolean unpack_config(xmlNode *config, pcmk_scheduler_t *scheduler) { const char *value = NULL; GHashTable *config_hash = pcmk__strkey_table(free, free); pe_rule_eval_data_t rule_data = { .node_hash = NULL, .now = scheduler->priv->now, .match_data = NULL, .rsc_data = NULL, .op_data = NULL }; scheduler->priv->options = config_hash; pe__unpack_dataset_nvpairs(config, PCMK_XE_CLUSTER_PROPERTY_SET, &rule_data, config_hash, PCMK_VALUE_CIB_BOOTSTRAP_OPTIONS, scheduler); pcmk__validate_cluster_options(config_hash); set_config_flag(scheduler, PCMK_OPT_ENABLE_STARTUP_PROBES, pcmk__sched_probe_resources); if (!pcmk_is_set(scheduler->flags, pcmk__sched_probe_resources)) { crm_info("Startup probes: disabled (dangerous)"); } value = pcmk__cluster_option(config_hash, PCMK_OPT_HAVE_WATCHDOG); if (value && crm_is_true(value)) { crm_info("Watchdog-based self-fencing will be performed via SBD if " "fencing is required and " PCMK_OPT_STONITH_WATCHDOG_TIMEOUT " is nonzero"); pcmk__set_scheduler_flags(scheduler, pcmk__sched_have_fencing); } /* Set certain flags via xpath here, so they can be used before the relevant * configuration sections are unpacked. */ set_if_xpath(pcmk__sched_enable_unfencing, XPATH_ENABLE_UNFENCING, scheduler); value = pcmk__cluster_option(config_hash, PCMK_OPT_STONITH_TIMEOUT); pcmk_parse_interval_spec(value, &(scheduler->priv->fence_timeout_ms)); crm_debug("Default fencing action timeout: %s", pcmk__readable_interval(scheduler->priv->fence_timeout_ms)); set_config_flag(scheduler, PCMK_OPT_STONITH_ENABLED, pcmk__sched_fencing_enabled); if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { crm_debug("STONITH of failed nodes is enabled"); } else { crm_debug("STONITH of failed nodes is disabled"); } scheduler->priv->fence_action = pcmk__cluster_option(config_hash, PCMK_OPT_STONITH_ACTION); if (!strcmp(scheduler->priv->fence_action, PCMK__ACTION_POWEROFF)) { pcmk__warn_once(pcmk__wo_poweroff, "Support for " PCMK_OPT_STONITH_ACTION " of " "'" PCMK__ACTION_POWEROFF "' is deprecated and will be " "removed in a future release " "(use '" PCMK_ACTION_OFF "' instead)"); scheduler->priv->fence_action = PCMK_ACTION_OFF; } crm_trace("STONITH will %s nodes", scheduler->priv->fence_action); set_config_flag(scheduler, PCMK_OPT_CONCURRENT_FENCING, pcmk__sched_concurrent_fencing); if (pcmk_is_set(scheduler->flags, pcmk__sched_concurrent_fencing)) { crm_debug("Concurrent fencing is enabled"); } else { crm_debug("Concurrent fencing is disabled"); } value = pcmk__cluster_option(config_hash, PCMK_OPT_PRIORITY_FENCING_DELAY); if (value) { pcmk_parse_interval_spec(value, &(scheduler->priv->priority_fencing_ms)); crm_trace("Priority fencing delay is %s", pcmk__readable_interval(scheduler->priv->priority_fencing_ms)); } set_config_flag(scheduler, PCMK_OPT_STOP_ALL_RESOURCES, pcmk__sched_stop_all); crm_debug("Stop all active resources: %s", pcmk__flag_text(scheduler->flags, pcmk__sched_stop_all)); set_config_flag(scheduler, PCMK_OPT_SYMMETRIC_CLUSTER, pcmk__sched_symmetric_cluster); if (pcmk_is_set(scheduler->flags, pcmk__sched_symmetric_cluster)) { crm_debug("Cluster is symmetric" " - resources can run anywhere by default"); } value = pcmk__cluster_option(config_hash, PCMK_OPT_NO_QUORUM_POLICY); if (pcmk__str_eq(value, PCMK_VALUE_IGNORE, pcmk__str_casei)) { scheduler->no_quorum_policy = pcmk_no_quorum_ignore; } else if (pcmk__str_eq(value, PCMK_VALUE_FREEZE, pcmk__str_casei)) { scheduler->no_quorum_policy = pcmk_no_quorum_freeze; } else if (pcmk__str_eq(value, PCMK_VALUE_DEMOTE, pcmk__str_casei)) { scheduler->no_quorum_policy = pcmk_no_quorum_demote; } else if (pcmk__strcase_any_of(value, PCMK_VALUE_FENCE, PCMK_VALUE_FENCE_LEGACY, NULL)) { if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { int do_panic = 0; crm_element_value_int(scheduler->input, PCMK_XA_NO_QUORUM_PANIC, &do_panic); if (do_panic || pcmk_is_set(scheduler->flags, pcmk__sched_quorate)) { scheduler->no_quorum_policy = pcmk_no_quorum_fence; } else { crm_notice("Resetting " PCMK_OPT_NO_QUORUM_POLICY " to 'stop': cluster has never had quorum"); scheduler->no_quorum_policy = pcmk_no_quorum_stop; } } else { pcmk__config_err("Resetting " PCMK_OPT_NO_QUORUM_POLICY " to 'stop' because fencing is disabled"); scheduler->no_quorum_policy = pcmk_no_quorum_stop; } } else { scheduler->no_quorum_policy = pcmk_no_quorum_stop; } switch (scheduler->no_quorum_policy) { case pcmk_no_quorum_freeze: crm_debug("On loss of quorum: Freeze resources"); break; case pcmk_no_quorum_stop: crm_debug("On loss of quorum: Stop ALL resources"); break; case pcmk_no_quorum_demote: crm_debug("On loss of quorum: " "Demote promotable resources and stop other resources"); break; case pcmk_no_quorum_fence: crm_notice("On loss of quorum: Fence all remaining nodes"); break; case pcmk_no_quorum_ignore: crm_notice("On loss of quorum: Ignore"); break; } set_config_flag(scheduler, PCMK_OPT_STOP_ORPHAN_RESOURCES, pcmk__sched_stop_removed_resources); if (pcmk_is_set(scheduler->flags, pcmk__sched_stop_removed_resources)) { crm_trace("Orphan resources are stopped"); } else { crm_trace("Orphan resources are ignored"); } set_config_flag(scheduler, PCMK_OPT_STOP_ORPHAN_ACTIONS, pcmk__sched_cancel_removed_actions); if (pcmk_is_set(scheduler->flags, pcmk__sched_cancel_removed_actions)) { crm_trace("Orphan resource actions are stopped"); } else { crm_trace("Orphan resource actions are ignored"); } value = pcmk__cluster_option(config_hash, PCMK__OPT_REMOVE_AFTER_STOP); if (value != NULL) { if (crm_is_true(value)) { pcmk__set_scheduler_flags(scheduler, pcmk__sched_remove_after_stop); pcmk__warn_once(pcmk__wo_remove_after, "Support for the " PCMK__OPT_REMOVE_AFTER_STOP " cluster property is deprecated and will be " "removed in a future release"); } else { pcmk__clear_scheduler_flags(scheduler, pcmk__sched_remove_after_stop); } } set_config_flag(scheduler, PCMK_OPT_MAINTENANCE_MODE, pcmk__sched_in_maintenance); crm_trace("Maintenance mode: %s", pcmk__flag_text(scheduler->flags, pcmk__sched_in_maintenance)); set_config_flag(scheduler, PCMK_OPT_START_FAILURE_IS_FATAL, pcmk__sched_start_failure_fatal); if (pcmk_is_set(scheduler->flags, pcmk__sched_start_failure_fatal)) { crm_trace("Start failures are always fatal"); } else { crm_trace("Start failures are handled by failcount"); } if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { set_config_flag(scheduler, PCMK_OPT_STARTUP_FENCING, pcmk__sched_startup_fencing); } if (pcmk_is_set(scheduler->flags, pcmk__sched_startup_fencing)) { crm_trace("Unseen nodes will be fenced"); } else { pcmk__warn_once(pcmk__wo_blind, "Blind faith: not fencing unseen nodes"); } pe__unpack_node_health_scores(scheduler); scheduler->priv->placement_strategy = pcmk__cluster_option(config_hash, PCMK_OPT_PLACEMENT_STRATEGY); crm_trace("Placement strategy: %s", scheduler->priv->placement_strategy); set_config_flag(scheduler, PCMK_OPT_SHUTDOWN_LOCK, pcmk__sched_shutdown_lock); if (pcmk_is_set(scheduler->flags, pcmk__sched_shutdown_lock)) { value = pcmk__cluster_option(config_hash, PCMK_OPT_SHUTDOWN_LOCK_LIMIT); pcmk_parse_interval_spec(value, &(scheduler->priv->shutdown_lock_ms)); crm_trace("Resources will be locked to nodes that were cleanly " "shut down (locks expire after %s)", pcmk__readable_interval(scheduler->priv->shutdown_lock_ms)); } else { crm_trace("Resources will not be locked to nodes that were cleanly " "shut down"); } value = pcmk__cluster_option(config_hash, PCMK_OPT_NODE_PENDING_TIMEOUT); pcmk_parse_interval_spec(value, &(scheduler->priv->node_pending_ms)); if (scheduler->priv->node_pending_ms == 0U) { crm_trace("Do not fence pending nodes"); } else { crm_trace("Fence pending nodes after %s", pcmk__readable_interval(scheduler->priv->node_pending_ms)); } return TRUE; } pcmk_node_t * pe_create_node(const char *id, const char *uname, const char *type, const char *score, pcmk_scheduler_t *scheduler) { enum pcmk__node_variant variant = pcmk__node_variant_cluster; pcmk_node_t *new_node = NULL; if (pcmk_find_node(scheduler, uname) != NULL) { pcmk__config_warn("More than one node entry has name '%s'", uname); } if (pcmk__str_eq(type, PCMK_VALUE_MEMBER, pcmk__str_null_matches|pcmk__str_casei)) { variant = pcmk__node_variant_cluster; } else if (pcmk__str_eq(type, PCMK_VALUE_REMOTE, pcmk__str_casei)) { variant = pcmk__node_variant_remote; } else if (pcmk__str_eq(type, PCMK__VALUE_PING, pcmk__str_casei)) { pcmk__warn_once(pcmk__wo_ping_node, "Support for nodes of type '" PCMK__VALUE_PING "' " "(such as %s) is deprecated and will be removed in a " "future release", pcmk__s(uname, "unnamed node")); variant = pcmk__node_variant_ping; } else { pcmk__config_err("Ignoring node %s with unrecognized type '%s'", pcmk__s(uname, "without name"), type); return NULL; } new_node = calloc(1, sizeof(pcmk_node_t)); if (new_node == NULL) { pcmk__sched_err(scheduler, "Could not allocate memory for node %s", uname); return NULL; } new_node->assign = calloc(1, sizeof(struct pcmk__node_assignment)); new_node->details = calloc(1, sizeof(struct pcmk__node_details)); new_node->priv = calloc(1, sizeof(pcmk__node_private_t)); if ((new_node->assign == NULL) || (new_node->details == NULL) || (new_node->priv == NULL)) { free(new_node->assign); free(new_node->details); free(new_node->priv); free(new_node); pcmk__sched_err(scheduler, "Could not allocate memory for node %s", uname); return NULL; } crm_trace("Creating node for entry %s/%s", uname, id); new_node->assign->score = char2score(score); new_node->priv->id = id; new_node->priv->name = uname; new_node->priv->flags = pcmk__node_probes_allowed; new_node->details->online = FALSE; new_node->details->shutdown = FALSE; new_node->details->running_rsc = NULL; new_node->priv->scheduler = scheduler; new_node->priv->variant = variant; new_node->priv->attrs = pcmk__strkey_table(free, free); new_node->priv->utilization = pcmk__strkey_table(free, free); new_node->priv->digest_cache = pcmk__strkey_table(free, pe__free_digests); if (pcmk__is_pacemaker_remote_node(new_node)) { pcmk__insert_dup(new_node->priv->attrs, CRM_ATTR_KIND, "remote"); pcmk__set_scheduler_flags(scheduler, pcmk__sched_have_remote_nodes); } else { pcmk__insert_dup(new_node->priv->attrs, CRM_ATTR_KIND, "cluster"); } scheduler->nodes = g_list_insert_sorted(scheduler->nodes, new_node, pe__cmp_node_name); return new_node; } static const char * expand_remote_rsc_meta(xmlNode *xml_obj, xmlNode *parent, pcmk_scheduler_t *data) { xmlNode *attr_set = NULL; xmlNode *attr = NULL; const char *container_id = pcmk__xe_id(xml_obj); const char *remote_name = NULL; const char *remote_server = NULL; const char *remote_port = NULL; const char *connect_timeout = "60s"; const char *remote_allow_migrate=NULL; const char *is_managed = NULL; for (attr_set = pcmk__xe_first_child(xml_obj, NULL, NULL, NULL); attr_set != NULL; attr_set = pcmk__xe_next(attr_set)) { if (!pcmk__xe_is(attr_set, PCMK_XE_META_ATTRIBUTES)) { continue; } for (attr = pcmk__xe_first_child(attr_set, NULL, NULL, NULL); attr != NULL; attr = pcmk__xe_next(attr)) { const char *value = crm_element_value(attr, PCMK_XA_VALUE); const char *name = crm_element_value(attr, PCMK_XA_NAME); if (name == NULL) { // Sanity continue; } if (strcmp(name, PCMK_META_REMOTE_NODE) == 0) { remote_name = value; } else if (strcmp(name, PCMK_META_REMOTE_ADDR) == 0) { remote_server = value; } else if (strcmp(name, PCMK_META_REMOTE_PORT) == 0) { remote_port = value; } else if (strcmp(name, PCMK_META_REMOTE_CONNECT_TIMEOUT) == 0) { connect_timeout = value; } else if (strcmp(name, PCMK_META_REMOTE_ALLOW_MIGRATE) == 0) { remote_allow_migrate = value; } else if (strcmp(name, PCMK_META_IS_MANAGED) == 0) { is_managed = value; } } } if (remote_name == NULL) { return NULL; } if (pe_find_resource(data->priv->resources, remote_name) != NULL) { return NULL; } pe_create_remote_xml(parent, remote_name, container_id, remote_allow_migrate, is_managed, connect_timeout, remote_server, remote_port); return remote_name; } static void handle_startup_fencing(pcmk_scheduler_t *scheduler, pcmk_node_t *new_node) { if ((new_node->priv->variant == pcmk__node_variant_remote) && (new_node->priv->remote == NULL)) { /* Ignore fencing for remote nodes that don't have a connection resource * associated with them. This happens when remote node entries get left * in the nodes section after the connection resource is removed. */ return; } if (pcmk_is_set(scheduler->flags, pcmk__sched_startup_fencing)) { // All nodes are unclean until we've seen their status entry new_node->details->unclean = TRUE; } else { // Blind faith ... new_node->details->unclean = FALSE; } } gboolean unpack_nodes(xmlNode *xml_nodes, pcmk_scheduler_t *scheduler) { xmlNode *xml_obj = NULL; pcmk_node_t *new_node = NULL; const char *id = NULL; const char *uname = NULL; const char *type = NULL; const char *score = NULL; for (xml_obj = pcmk__xe_first_child(xml_nodes, NULL, NULL, NULL); xml_obj != NULL; xml_obj = pcmk__xe_next(xml_obj)) { if (pcmk__xe_is(xml_obj, PCMK_XE_NODE)) { new_node = NULL; id = crm_element_value(xml_obj, PCMK_XA_ID); uname = crm_element_value(xml_obj, PCMK_XA_UNAME); type = crm_element_value(xml_obj, PCMK_XA_TYPE); score = crm_element_value(xml_obj, PCMK_XA_SCORE); crm_trace("Processing node %s/%s", uname, id); if (id == NULL) { pcmk__config_err("Ignoring <" PCMK_XE_NODE "> entry in configuration without id"); continue; } new_node = pe_create_node(id, uname, type, score, scheduler); if (new_node == NULL) { return FALSE; } handle_startup_fencing(scheduler, new_node); add_node_attrs(xml_obj, new_node, FALSE, scheduler); crm_trace("Done with node %s", crm_element_value(xml_obj, PCMK_XA_UNAME)); } } return TRUE; } static void unpack_launcher(pcmk_resource_t *rsc, pcmk_scheduler_t *scheduler) { const char *launcher_id = NULL; if (rsc->priv->children != NULL) { g_list_foreach(rsc->priv->children, (GFunc) unpack_launcher, scheduler); return; } launcher_id = g_hash_table_lookup(rsc->priv->meta, PCMK__META_CONTAINER); if ((launcher_id != NULL) && !pcmk__str_eq(launcher_id, rsc->id, pcmk__str_none)) { pcmk_resource_t *launcher = pe_find_resource(scheduler->priv->resources, launcher_id); if (launcher != NULL) { rsc->priv->launcher = launcher; launcher->priv->launched = g_list_append(launcher->priv->launched, rsc); pcmk__rsc_trace(rsc, "Resource %s's launcher is %s", rsc->id, launcher_id); } else { pcmk__config_err("Resource %s: Unknown " PCMK__META_CONTAINER " %s", rsc->id, launcher_id); } } } gboolean unpack_remote_nodes(xmlNode *xml_resources, pcmk_scheduler_t *scheduler) { xmlNode *xml_obj = NULL; /* Create remote nodes and guest nodes from the resource configuration * before unpacking resources. */ for (xml_obj = pcmk__xe_first_child(xml_resources, NULL, NULL, NULL); xml_obj != NULL; xml_obj = pcmk__xe_next(xml_obj)) { const char *new_node_id = NULL; /* Check for remote nodes, which are defined by ocf:pacemaker:remote * primitives. */ if (xml_contains_remote_node(xml_obj)) { new_node_id = pcmk__xe_id(xml_obj); /* The pcmk_find_node() check ensures we don't iterate over an * expanded node that has already been added to the node list */ if (new_node_id && (pcmk_find_node(scheduler, new_node_id) == NULL)) { crm_trace("Found remote node %s defined by resource %s", new_node_id, pcmk__xe_id(xml_obj)); pe_create_node(new_node_id, new_node_id, PCMK_VALUE_REMOTE, NULL, scheduler); } continue; } /* Check for guest nodes, which are defined by special meta-attributes * of a primitive of any type (for example, VirtualDomain or Xen). */ if (pcmk__xe_is(xml_obj, PCMK_XE_PRIMITIVE)) { /* This will add an ocf:pacemaker:remote primitive to the * configuration for the guest node's connection, to be unpacked * later. */ new_node_id = expand_remote_rsc_meta(xml_obj, xml_resources, scheduler); if (new_node_id && (pcmk_find_node(scheduler, new_node_id) == NULL)) { crm_trace("Found guest node %s in resource %s", new_node_id, pcmk__xe_id(xml_obj)); pe_create_node(new_node_id, new_node_id, PCMK_VALUE_REMOTE, NULL, scheduler); } continue; } /* Check for guest nodes inside a group. Clones are currently not * supported as guest nodes. */ if (pcmk__xe_is(xml_obj, PCMK_XE_GROUP)) { xmlNode *xml_obj2 = NULL; for (xml_obj2 = pcmk__xe_first_child(xml_obj, NULL, NULL, NULL); xml_obj2 != NULL; xml_obj2 = pcmk__xe_next(xml_obj2)) { new_node_id = expand_remote_rsc_meta(xml_obj2, xml_resources, scheduler); if (new_node_id && (pcmk_find_node(scheduler, new_node_id) == NULL)) { crm_trace("Found guest node %s in resource %s inside group %s", new_node_id, pcmk__xe_id(xml_obj2), pcmk__xe_id(xml_obj)); pe_create_node(new_node_id, new_node_id, PCMK_VALUE_REMOTE, NULL, scheduler); } } } } return TRUE; } /* Call this after all the nodes and resources have been * unpacked, but before the status section is read. * * A remote node's online status is reflected by the state * of the remote node's connection resource. We need to link * the remote node to this connection resource so we can have * easy access to the connection resource during the scheduler calculations. */ static void link_rsc2remotenode(pcmk_scheduler_t *scheduler, pcmk_resource_t *new_rsc) { pcmk_node_t *remote_node = NULL; if (!pcmk_is_set(new_rsc->flags, pcmk__rsc_is_remote_connection)) { return; } if (pcmk_is_set(scheduler->flags, pcmk__sched_location_only)) { /* remote_nodes and remote_resources are not linked in quick location calculations */ return; } remote_node = pcmk_find_node(scheduler, new_rsc->id); CRM_CHECK(remote_node != NULL, return); pcmk__rsc_trace(new_rsc, "Linking remote connection resource %s to %s", new_rsc->id, pcmk__node_name(remote_node)); remote_node->priv->remote = new_rsc; if (new_rsc->priv->launcher == NULL) { /* Handle start-up fencing for remote nodes (as opposed to guest nodes) * the same as is done for cluster nodes. */ handle_startup_fencing(scheduler, remote_node); } else { /* pe_create_node() marks the new node as "remote" or "cluster"; now * that we know the node is a guest node, update it correctly. */ pcmk__insert_dup(remote_node->priv->attrs, CRM_ATTR_KIND, "container"); } } /*! * \internal * \brief Parse configuration XML for resource information * * \param[in] xml_resources Top of resource configuration XML * \param[in,out] scheduler Scheduler data * * \return TRUE * * \note unpack_remote_nodes() MUST be called before this, so that the nodes can * be used when pe__unpack_resource() calls resource_location() */ gboolean unpack_resources(const xmlNode *xml_resources, pcmk_scheduler_t *scheduler) { xmlNode *xml_obj = NULL; GList *gIter = NULL; scheduler->priv->templates = pcmk__strkey_table(free, pcmk__free_idref); for (xml_obj = pcmk__xe_first_child(xml_resources, NULL, NULL, NULL); xml_obj != NULL; xml_obj = pcmk__xe_next(xml_obj)) { pcmk_resource_t *new_rsc = NULL; const char *id = pcmk__xe_id(xml_obj); if (pcmk__str_empty(id)) { pcmk__config_err("Ignoring <%s> resource without ID", xml_obj->name); continue; } if (pcmk__xe_is(xml_obj, PCMK_XE_TEMPLATE)) { if (g_hash_table_lookup_extended(scheduler->priv->templates, id, NULL, NULL) == FALSE) { /* Record the template's ID for the knowledge of its existence anyway. */ pcmk__insert_dup(scheduler->priv->templates, id, NULL); } continue; } crm_trace("Unpacking <%s " PCMK_XA_ID "='%s'>", xml_obj->name, id); if (pe__unpack_resource(xml_obj, &new_rsc, NULL, scheduler) == pcmk_rc_ok) { scheduler->priv->resources = g_list_append(scheduler->priv->resources, new_rsc); pcmk__rsc_trace(new_rsc, "Added resource %s", new_rsc->id); } else { pcmk__config_err("Ignoring <%s> resource '%s' " "because configuration is invalid", xml_obj->name, id); } } for (gIter = scheduler->priv->resources; gIter != NULL; gIter = gIter->next) { pcmk_resource_t *rsc = (pcmk_resource_t *) gIter->data; unpack_launcher(rsc, scheduler); link_rsc2remotenode(scheduler, rsc); } scheduler->priv->resources = g_list_sort(scheduler->priv->resources, pe__cmp_rsc_priority); if (pcmk_is_set(scheduler->flags, pcmk__sched_location_only)) { /* Ignore */ } else if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled) && !pcmk_is_set(scheduler->flags, pcmk__sched_have_fencing)) { pcmk__config_err("Resource start-up disabled since no STONITH resources have been defined"); pcmk__config_err("Either configure some or disable STONITH with the " PCMK_OPT_STONITH_ENABLED " option"); pcmk__config_err("NOTE: Clusters with shared data need STONITH to ensure data integrity"); } return TRUE; } /*! * \internal * \brief Parse configuration XML for fencing topology information * * \param[in] xml_fencing_topology Top of fencing topology configuration XML * \param[in,out] scheduler Scheduler data * * \return void */ void pcmk__unpack_fencing_topology(const xmlNode *xml_fencing_topology, pcmk_scheduler_t *scheduler) { xmlNode *xml_obj = NULL; int id = 0; for (xml_obj = pcmk__xe_first_child(xml_fencing_topology, PCMK_XE_FENCING_LEVEL, NULL, NULL); xml_obj != NULL; xml_obj = pcmk__xe_next_same(xml_obj)) { crm_element_value_int(xml_obj, PCMK_XA_INDEX, &id); // Ensure an ID was given if (pcmk__str_empty(pcmk__xe_id(xml_obj))) { pcmk__config_warn("Ignoring registration for topology level without ID"); continue; } // Ensure level ID is in allowed range if ((id < ST__LEVEL_MIN) || (id > ST__LEVEL_MAX)) { pcmk__config_warn("Ignoring topology registration with invalid level %d", id); continue; } } } gboolean unpack_tags(xmlNode *xml_tags, pcmk_scheduler_t *scheduler) { xmlNode *xml_tag = NULL; scheduler->priv->tags = pcmk__strkey_table(free, pcmk__free_idref); for (xml_tag = pcmk__xe_first_child(xml_tags, NULL, NULL, NULL); xml_tag != NULL; xml_tag = pcmk__xe_next(xml_tag)) { xmlNode *xml_obj_ref = NULL; const char *tag_id = pcmk__xe_id(xml_tag); if (!pcmk__xe_is(xml_tag, PCMK_XE_TAG)) { continue; } if (tag_id == NULL) { pcmk__config_err("Ignoring <%s> without " PCMK_XA_ID, (const char *) xml_tag->name); continue; } for (xml_obj_ref = pcmk__xe_first_child(xml_tag, NULL, NULL, NULL); xml_obj_ref != NULL; xml_obj_ref = pcmk__xe_next(xml_obj_ref)) { const char *obj_ref = pcmk__xe_id(xml_obj_ref); if (!pcmk__xe_is(xml_obj_ref, PCMK_XE_OBJ_REF)) { continue; } if (obj_ref == NULL) { pcmk__config_err("Ignoring <%s> for tag '%s' without " PCMK_XA_ID, xml_obj_ref->name, tag_id); continue; } pcmk__add_idref(scheduler->priv->tags, tag_id, obj_ref); } } return TRUE; } /* The ticket state section: * "/cib/status/tickets/ticket_state" */ static gboolean unpack_ticket_state(xmlNode *xml_ticket, pcmk_scheduler_t *scheduler) { const char *ticket_id = NULL; const char *granted = NULL; const char *last_granted = NULL; const char *standby = NULL; xmlAttrPtr xIter = NULL; pcmk__ticket_t *ticket = NULL; ticket_id = pcmk__xe_id(xml_ticket); if (pcmk__str_empty(ticket_id)) { return FALSE; } crm_trace("Processing ticket state for %s", ticket_id); ticket = g_hash_table_lookup(scheduler->priv->ticket_constraints, ticket_id); if (ticket == NULL) { ticket = ticket_new(ticket_id, scheduler); if (ticket == NULL) { return FALSE; } } for (xIter = xml_ticket->properties; xIter; xIter = xIter->next) { const char *prop_name = (const char *)xIter->name; const char *prop_value = pcmk__xml_attr_value(xIter); if (pcmk__str_eq(prop_name, PCMK_XA_ID, pcmk__str_none)) { continue; } pcmk__insert_dup(ticket->state, prop_name, prop_value); } granted = g_hash_table_lookup(ticket->state, PCMK__XA_GRANTED); if (granted && crm_is_true(granted)) { pcmk__set_ticket_flags(ticket, pcmk__ticket_granted); crm_info("We have ticket '%s'", ticket->id); } else { pcmk__clear_ticket_flags(ticket, pcmk__ticket_granted); crm_info("We do not have ticket '%s'", ticket->id); } last_granted = g_hash_table_lookup(ticket->state, PCMK_XA_LAST_GRANTED); if (last_granted) { - long long last_granted_ll; - - pcmk__scan_ll(last_granted, &last_granted_ll, 0LL); + long long last_granted_ll = 0LL; + int rc = pcmk__scan_ll(last_granted, &last_granted_ll, 0LL); + + if (rc != pcmk_rc_ok) { + crm_warn("Using %lld instead of invalid " PCMK_XA_LAST_GRANTED + " value '%s' in state for ticket %s: %s", + last_granted_ll, last_granted, ticket->id, + pcmk_rc_str(rc)); + } ticket->last_granted = (time_t) last_granted_ll; } standby = g_hash_table_lookup(ticket->state, PCMK_XA_STANDBY); if (standby && crm_is_true(standby)) { pcmk__set_ticket_flags(ticket, pcmk__ticket_standby); if (pcmk_is_set(ticket->flags, pcmk__ticket_granted)) { crm_info("Granted ticket '%s' is in standby-mode", ticket->id); } } else { pcmk__clear_ticket_flags(ticket, pcmk__ticket_standby); } crm_trace("Done with ticket state for %s", ticket_id); return TRUE; } static gboolean unpack_tickets_state(xmlNode *xml_tickets, pcmk_scheduler_t *scheduler) { xmlNode *xml_obj = NULL; for (xml_obj = pcmk__xe_first_child(xml_tickets, NULL, NULL, NULL); xml_obj != NULL; xml_obj = pcmk__xe_next(xml_obj)) { if (!pcmk__xe_is(xml_obj, PCMK__XE_TICKET_STATE)) { continue; } unpack_ticket_state(xml_obj, scheduler); } return TRUE; } static void unpack_handle_remote_attrs(pcmk_node_t *this_node, const xmlNode *state, pcmk_scheduler_t *scheduler) { const char *discovery = NULL; const xmlNode *attrs = NULL; pcmk_resource_t *rsc = NULL; int maint = 0; if (!pcmk__xe_is(state, PCMK__XE_NODE_STATE)) { return; } if ((this_node == NULL) || !pcmk__is_pacemaker_remote_node(this_node)) { return; } crm_trace("Processing Pacemaker Remote node %s", pcmk__node_name(this_node)); pcmk__scan_min_int(crm_element_value(state, PCMK__XA_NODE_IN_MAINTENANCE), &maint, 0); if (maint) { pcmk__set_node_flags(this_node, pcmk__node_remote_maint); } else { pcmk__clear_node_flags(this_node, pcmk__node_remote_maint); } rsc = this_node->priv->remote; if (!pcmk_is_set(this_node->priv->flags, pcmk__node_remote_reset)) { this_node->details->unclean = FALSE; pcmk__set_node_flags(this_node, pcmk__node_seen); } attrs = pcmk__xe_first_child(state, PCMK__XE_TRANSIENT_ATTRIBUTES, NULL, NULL); add_node_attrs(attrs, this_node, TRUE, scheduler); if (pe__shutdown_requested(this_node)) { crm_info("%s is shutting down", pcmk__node_name(this_node)); this_node->details->shutdown = TRUE; } if (crm_is_true(pcmk__node_attr(this_node, PCMK_NODE_ATTR_STANDBY, NULL, pcmk__rsc_node_current))) { crm_info("%s is in standby mode", pcmk__node_name(this_node)); pcmk__set_node_flags(this_node, pcmk__node_standby); } if (crm_is_true(pcmk__node_attr(this_node, PCMK_NODE_ATTR_MAINTENANCE, NULL, pcmk__rsc_node_current)) || ((rsc != NULL) && !pcmk_is_set(rsc->flags, pcmk__rsc_managed))) { crm_info("%s is in maintenance mode", pcmk__node_name(this_node)); this_node->details->maintenance = TRUE; } discovery = pcmk__node_attr(this_node, PCMK__NODE_ATTR_RESOURCE_DISCOVERY_ENABLED, NULL, pcmk__rsc_node_current); if ((discovery != NULL) && !crm_is_true(discovery)) { pcmk__warn_once(pcmk__wo_rdisc_enabled, "Support for the " PCMK__NODE_ATTR_RESOURCE_DISCOVERY_ENABLED " node attribute is deprecated and will be removed" " (and behave as 'true') in a future release."); if (pcmk__is_remote_node(this_node) && !pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { pcmk__config_warn("Ignoring " PCMK__NODE_ATTR_RESOURCE_DISCOVERY_ENABLED " attribute on Pacemaker Remote node %s" " because fencing is disabled", pcmk__node_name(this_node)); } else { /* This is either a remote node with fencing enabled, or a guest * node. We don't care whether fencing is enabled when fencing guest * nodes, because they are "fenced" by recovering their containing * resource. */ crm_info("%s has resource discovery disabled", pcmk__node_name(this_node)); pcmk__clear_node_flags(this_node, pcmk__node_probes_allowed); } } } /*! * \internal * \brief Unpack a cluster node's transient attributes * * \param[in] state CIB node state XML * \param[in,out] node Cluster node whose attributes are being unpacked * \param[in,out] scheduler Scheduler data */ static void unpack_transient_attributes(const xmlNode *state, pcmk_node_t *node, pcmk_scheduler_t *scheduler) { const char *discovery = NULL; const xmlNode *attrs = pcmk__xe_first_child(state, PCMK__XE_TRANSIENT_ATTRIBUTES, NULL, NULL); add_node_attrs(attrs, node, TRUE, scheduler); if (crm_is_true(pcmk__node_attr(node, PCMK_NODE_ATTR_STANDBY, NULL, pcmk__rsc_node_current))) { crm_info("%s is in standby mode", pcmk__node_name(node)); pcmk__set_node_flags(node, pcmk__node_standby); } if (crm_is_true(pcmk__node_attr(node, PCMK_NODE_ATTR_MAINTENANCE, NULL, pcmk__rsc_node_current))) { crm_info("%s is in maintenance mode", pcmk__node_name(node)); node->details->maintenance = TRUE; } discovery = pcmk__node_attr(node, PCMK__NODE_ATTR_RESOURCE_DISCOVERY_ENABLED, NULL, pcmk__rsc_node_current); if ((discovery != NULL) && !crm_is_true(discovery)) { pcmk__config_warn("Ignoring " PCMK__NODE_ATTR_RESOURCE_DISCOVERY_ENABLED " attribute for %s because disabling resource" " discovery is not allowed for cluster nodes", pcmk__node_name(node)); } } /*! * \internal * \brief Unpack a node state entry (first pass) * * Unpack one node state entry from status. This unpacks information from the * \C PCMK__XE_NODE_STATE element itself and node attributes inside it, but not * the resource history inside it. Multiple passes through the status are needed * to fully unpack everything. * * \param[in] state CIB node state XML * \param[in,out] scheduler Scheduler data */ static void unpack_node_state(const xmlNode *state, pcmk_scheduler_t *scheduler) { const char *id = NULL; const char *uname = NULL; pcmk_node_t *this_node = NULL; id = crm_element_value(state, PCMK_XA_ID); if (id == NULL) { pcmk__config_err("Ignoring invalid " PCMK__XE_NODE_STATE " entry without " PCMK_XA_ID); crm_log_xml_info(state, "missing-id"); return; } uname = crm_element_value(state, PCMK_XA_UNAME); if (uname == NULL) { /* If a joining peer makes the cluster acquire the quorum from Corosync * but has not joined the controller CPG membership yet, it's possible * that the created PCMK__XE_NODE_STATE entry doesn't have a * PCMK_XA_UNAME yet. Recognize the node as pending and wait for it to * join CPG. */ crm_trace("Handling " PCMK__XE_NODE_STATE " entry with id=\"%s\" " "without " PCMK_XA_UNAME, id); } this_node = pe_find_node_any(scheduler->nodes, id, uname); if (this_node == NULL) { crm_notice("Ignoring recorded state for removed node with name %s and " PCMK_XA_ID " %s", pcmk__s(uname, "unknown"), id); return; } if (pcmk__is_pacemaker_remote_node(this_node)) { int remote_fenced = 0; /* We can't determine the online status of Pacemaker Remote nodes until * after all resource history has been unpacked. In this first pass, we * do need to mark whether the node has been fenced, as this plays a * role during unpacking cluster node resource state. */ pcmk__scan_min_int(crm_element_value(state, PCMK__XA_NODE_FENCED), &remote_fenced, 0); if (remote_fenced) { pcmk__set_node_flags(this_node, pcmk__node_remote_fenced); } else { pcmk__clear_node_flags(this_node, pcmk__node_remote_fenced); } return; } unpack_transient_attributes(state, this_node, scheduler); /* Provisionally mark this cluster node as clean. We have at least seen it * in the current cluster's lifetime. */ this_node->details->unclean = FALSE; pcmk__set_node_flags(this_node, pcmk__node_seen); crm_trace("Determining online status of cluster node %s (id %s)", pcmk__node_name(this_node), id); determine_online_status(state, this_node, scheduler); if (!pcmk_is_set(scheduler->flags, pcmk__sched_quorate) && this_node->details->online && (scheduler->no_quorum_policy == pcmk_no_quorum_fence)) { /* Everything else should flow from this automatically * (at least until the scheduler becomes able to migrate off * healthy resources) */ pe_fence_node(scheduler, this_node, "cluster does not have quorum", FALSE); } } /*! * \internal * \brief Unpack nodes' resource history as much as possible * * Unpack as many nodes' resource history as possible in one pass through the * status. We need to process Pacemaker Remote nodes' connections/containers * before unpacking their history; the connection/container history will be * in another node's history, so it might take multiple passes to unpack * everything. * * \param[in] status CIB XML status section * \param[in] fence If true, treat any not-yet-unpacked nodes as unseen * \param[in,out] scheduler Scheduler data * * \return Standard Pacemaker return code (specifically pcmk_rc_ok if done, * or EAGAIN if more unpacking remains to be done) */ static int unpack_node_history(const xmlNode *status, bool fence, pcmk_scheduler_t *scheduler) { int rc = pcmk_rc_ok; // Loop through all PCMK__XE_NODE_STATE entries in CIB status for (const xmlNode *state = pcmk__xe_first_child(status, PCMK__XE_NODE_STATE, NULL, NULL); state != NULL; state = pcmk__xe_next_same(state)) { const char *id = pcmk__xe_id(state); const char *uname = crm_element_value(state, PCMK_XA_UNAME); pcmk_node_t *this_node = NULL; if ((id == NULL) || (uname == NULL)) { // Warning already logged in first pass through status section crm_trace("Not unpacking resource history from malformed " PCMK__XE_NODE_STATE " without id and/or uname"); continue; } this_node = pe_find_node_any(scheduler->nodes, id, uname); if (this_node == NULL) { // Warning already logged in first pass through status section crm_trace("Not unpacking resource history for node %s because " "no longer in configuration", id); continue; } if (pcmk_is_set(this_node->priv->flags, pcmk__node_unpacked)) { crm_trace("Not unpacking resource history for node %s because " "already unpacked", id); continue; } if (fence) { // We're processing all remaining nodes } else if (pcmk__is_guest_or_bundle_node(this_node)) { /* We can unpack a guest node's history only after we've unpacked * other resource history to the point that we know that the node's * connection and containing resource are both up. */ const pcmk_resource_t *remote = this_node->priv->remote; const pcmk_resource_t *launcher = remote->priv->launcher; if ((remote->priv->orig_role != pcmk_role_started) || (launcher->priv->orig_role != pcmk_role_started)) { crm_trace("Not unpacking resource history for guest node %s " "because launcher and connection are not known to " "be up", id); continue; } } else if (pcmk__is_remote_node(this_node)) { /* We can unpack a remote node's history only after we've unpacked * other resource history to the point that we know that the node's * connection is up, with the exception of when shutdown locks are * in use. */ pcmk_resource_t *rsc = this_node->priv->remote; if ((rsc == NULL) || (!pcmk_is_set(scheduler->flags, pcmk__sched_shutdown_lock) && (rsc->priv->orig_role != pcmk_role_started))) { crm_trace("Not unpacking resource history for remote node %s " "because connection is not known to be up", id); continue; } /* If fencing and shutdown locks are disabled and we're not processing * unseen nodes, then we don't want to unpack offline nodes until online * nodes have been unpacked. This allows us to number active clone * instances first. */ } else if (!pcmk_any_flags_set(scheduler->flags, pcmk__sched_fencing_enabled |pcmk__sched_shutdown_lock) && !this_node->details->online) { crm_trace("Not unpacking resource history for offline " "cluster node %s", id); continue; } if (pcmk__is_pacemaker_remote_node(this_node)) { determine_remote_online_status(scheduler, this_node); unpack_handle_remote_attrs(this_node, state, scheduler); } crm_trace("Unpacking resource history for %snode %s", (fence? "unseen " : ""), id); pcmk__set_node_flags(this_node, pcmk__node_unpacked); unpack_node_lrm(this_node, state, scheduler); rc = EAGAIN; // Other node histories might depend on this one } return rc; } /* remove nodes that are down, stopping */ /* create positive rsc_to_node constraints between resources and the nodes they are running on */ /* anything else? */ gboolean unpack_status(xmlNode *status, pcmk_scheduler_t *scheduler) { xmlNode *state = NULL; crm_trace("Beginning unpack"); if (scheduler->priv->ticket_constraints == NULL) { scheduler->priv->ticket_constraints = pcmk__strkey_table(free, destroy_ticket); } for (state = pcmk__xe_first_child(status, NULL, NULL, NULL); state != NULL; state = pcmk__xe_next(state)) { if (pcmk__xe_is(state, PCMK_XE_TICKETS)) { unpack_tickets_state((xmlNode *) state, scheduler); } else if (pcmk__xe_is(state, PCMK__XE_NODE_STATE)) { unpack_node_state(state, scheduler); } } while (unpack_node_history(status, FALSE, scheduler) == EAGAIN) { crm_trace("Another pass through node resource histories is needed"); } // Now catch any nodes we didn't see unpack_node_history(status, pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled), scheduler); /* Now that we know where resources are, we can schedule stops of containers * with failed bundle connections */ if (scheduler->priv->stop_needed != NULL) { for (GList *item = scheduler->priv->stop_needed; item != NULL; item = item->next) { pcmk_resource_t *container = item->data; pcmk_node_t *node = pcmk__current_node(container); if (node) { stop_action(container, node, FALSE); } } g_list_free(scheduler->priv->stop_needed); scheduler->priv->stop_needed = NULL; } /* Now that we know status of all Pacemaker Remote connections and nodes, * we can stop connections for node shutdowns, and check the online status * of remote/guest nodes that didn't have any node history to unpack. */ for (GList *gIter = scheduler->nodes; gIter != NULL; gIter = gIter->next) { pcmk_node_t *this_node = gIter->data; if (!pcmk__is_pacemaker_remote_node(this_node)) { continue; } if (this_node->details->shutdown && (this_node->priv->remote != NULL)) { pe__set_next_role(this_node->priv->remote, pcmk_role_stopped, "remote shutdown"); } if (!pcmk_is_set(this_node->priv->flags, pcmk__node_unpacked)) { determine_remote_online_status(scheduler, this_node); } } return TRUE; } /*! * \internal * \brief Unpack node's time when it became a member at the cluster layer * * \param[in] node_state Node's \c PCMK__XE_NODE_STATE entry * \param[in,out] scheduler Scheduler data * * \return Epoch time when node became a cluster member * (or scheduler effective time for legacy entries) if a member, * 0 if not a member, or -1 if no valid information available */ static long long unpack_node_member(const xmlNode *node_state, pcmk_scheduler_t *scheduler) { const char *member_time = crm_element_value(node_state, PCMK__XA_IN_CCM); int member = 0; if (member_time == NULL) { return -1LL; } else if (crm_str_to_boolean(member_time, &member) == 1) { /* If in_ccm=0, we'll return 0 here. If in_ccm=1, either the entry was * recorded as a boolean for a DC < 2.1.7, or the node is pending * shutdown and has left the CPG, in which case it was set to 1 to avoid * fencing for PCMK_OPT_NODE_PENDING_TIMEOUT. * * We return the effective time for in_ccm=1 because what's important to * avoid fencing is that effective time minus this value is less than * the pending node timeout. */ return member? (long long) get_effective_time(scheduler) : 0LL; } else { long long when_member = 0LL; if ((pcmk__scan_ll(member_time, &when_member, 0LL) != pcmk_rc_ok) || (when_member < 0LL)) { crm_warn("Unrecognized value '%s' for " PCMK__XA_IN_CCM " in " PCMK__XE_NODE_STATE " entry", member_time); return -1LL; } return when_member; } } /*! * \internal * \brief Unpack node's time when it became online in process group * * \param[in] node_state Node's \c PCMK__XE_NODE_STATE entry * * \return Epoch time when node became online in process group (or 0 if not * online, or 1 for legacy online entries) */ static long long unpack_node_online(const xmlNode *node_state) { const char *peer_time = crm_element_value(node_state, PCMK_XA_CRMD); // @COMPAT Entries recorded for DCs < 2.1.7 have "online" or "offline" if (pcmk__str_eq(peer_time, PCMK_VALUE_OFFLINE, pcmk__str_casei|pcmk__str_null_matches)) { return 0LL; } else if (pcmk__str_eq(peer_time, PCMK_VALUE_ONLINE, pcmk__str_casei)) { return 1LL; } else { long long when_online = 0LL; if ((pcmk__scan_ll(peer_time, &when_online, 0LL) != pcmk_rc_ok) || (when_online < 0)) { crm_warn("Unrecognized value '%s' for " PCMK_XA_CRMD " in " PCMK__XE_NODE_STATE " entry, assuming offline", peer_time); return 0LL; } return when_online; } } /*! * \internal * \brief Unpack node attribute for user-requested fencing * * \param[in] node Node to check * \param[in] node_state Node's \c PCMK__XE_NODE_STATE entry in CIB status * * \return \c true if fencing has been requested for \p node, otherwise \c false */ static bool unpack_node_terminate(const pcmk_node_t *node, const xmlNode *node_state) { long long value = 0LL; int value_i = 0; + int rc = pcmk_rc_ok; const char *value_s = pcmk__node_attr(node, PCMK_NODE_ATTR_TERMINATE, NULL, pcmk__rsc_node_current); // Value may be boolean or an epoch time if (crm_str_to_boolean(value_s, &value_i) == 1) { return (value_i != 0); } - if (pcmk__scan_ll(value_s, &value, 0LL) == pcmk_rc_ok) { + rc = pcmk__scan_ll(value_s, &value, 0LL); + if (rc == pcmk_rc_ok) { return (value > 0); } crm_warn("Ignoring unrecognized value '%s' for " PCMK_NODE_ATTR_TERMINATE - "node attribute for %s", value_s, pcmk__node_name(node)); + "node attribute for %s: %s", + value_s, pcmk__node_name(node), pcmk_rc_str(rc)); return false; } static gboolean determine_online_status_no_fencing(pcmk_scheduler_t *scheduler, const xmlNode *node_state, pcmk_node_t *this_node) { gboolean online = FALSE; const char *join = crm_element_value(node_state, PCMK__XA_JOIN); const char *exp_state = crm_element_value(node_state, PCMK_XA_EXPECTED); long long when_member = unpack_node_member(node_state, scheduler); long long when_online = unpack_node_online(node_state); if (when_member <= 0) { crm_trace("Node %s is %sdown", pcmk__node_name(this_node), ((when_member < 0)? "presumed " : "")); } else if (when_online > 0) { if (pcmk__str_eq(join, CRMD_JOINSTATE_MEMBER, pcmk__str_casei)) { online = TRUE; } else { crm_debug("Node %s is not ready to run resources: %s", pcmk__node_name(this_node), join); } } else if (!pcmk_is_set(this_node->priv->flags, pcmk__node_expected_up)) { crm_trace("Node %s controller is down: " "member@%lld online@%lld join=%s expected=%s", pcmk__node_name(this_node), when_member, when_online, pcmk__s(join, ""), pcmk__s(exp_state, "")); } else { /* mark it unclean */ pe_fence_node(scheduler, this_node, "peer is unexpectedly down", FALSE); crm_info("Node %s member@%lld online@%lld join=%s expected=%s", pcmk__node_name(this_node), when_member, when_online, pcmk__s(join, ""), pcmk__s(exp_state, "")); } return online; } /*! * \internal * \brief Check whether a node has taken too long to join controller group * * \param[in,out] scheduler Scheduler data * \param[in] node Node to check * \param[in] when_member Epoch time when node became a cluster member * \param[in] when_online Epoch time when node joined controller group * * \return true if node has been pending (on the way up) longer than * \c PCMK_OPT_NODE_PENDING_TIMEOUT, otherwise false * \note This will also update the cluster's recheck time if appropriate. */ static inline bool pending_too_long(pcmk_scheduler_t *scheduler, const pcmk_node_t *node, long long when_member, long long when_online) { if ((scheduler->priv->node_pending_ms > 0U) && (when_member > 0) && (when_online <= 0)) { // There is a timeout on pending nodes, and node is pending time_t timeout = when_member + (scheduler->priv->node_pending_ms / 1000U); if (get_effective_time(node->priv->scheduler) >= timeout) { return true; // Node has timed out } // Node is pending, but still has time pe__update_recheck_time(timeout, scheduler, "pending node timeout"); } return false; } static bool determine_online_status_fencing(pcmk_scheduler_t *scheduler, const xmlNode *node_state, pcmk_node_t *this_node) { bool termination_requested = unpack_node_terminate(this_node, node_state); const char *join = crm_element_value(node_state, PCMK__XA_JOIN); const char *exp_state = crm_element_value(node_state, PCMK_XA_EXPECTED); long long when_member = unpack_node_member(node_state, scheduler); long long when_online = unpack_node_online(node_state); /* - PCMK__XA_JOIN ::= member|down|pending|banned - PCMK_XA_EXPECTED ::= member|down @COMPAT with entries recorded for DCs < 2.1.7 - PCMK__XA_IN_CCM ::= true|false - PCMK_XA_CRMD ::= online|offline Since crm_feature_set 3.18.0 (pacemaker-2.1.7): - PCMK__XA_IN_CCM ::= |0 Since when node has been a cluster member. A value 0 of means the node is not a cluster member. - PCMK_XA_CRMD ::= |0 Since when peer has been online in CPG. A value 0 means the peer is offline in CPG. */ crm_trace("Node %s member@%lld online@%lld join=%s expected=%s%s", pcmk__node_name(this_node), when_member, when_online, pcmk__s(join, ""), pcmk__s(exp_state, ""), (termination_requested? " (termination requested)" : "")); if (this_node->details->shutdown) { crm_debug("%s is shutting down", pcmk__node_name(this_node)); /* Slightly different criteria since we can't shut down a dead peer */ return (when_online > 0); } if (when_member < 0) { pe_fence_node(scheduler, this_node, "peer has not been seen by the cluster", FALSE); return false; } if (pcmk__str_eq(join, CRMD_JOINSTATE_NACK, pcmk__str_none)) { pe_fence_node(scheduler, this_node, "peer failed Pacemaker membership criteria", FALSE); } else if (termination_requested) { if ((when_member <= 0) && (when_online <= 0) && pcmk__str_eq(join, CRMD_JOINSTATE_DOWN, pcmk__str_none)) { crm_info("%s was fenced as requested", pcmk__node_name(this_node)); return false; } pe_fence_node(scheduler, this_node, "fencing was requested", false); } else if (pcmk__str_eq(exp_state, CRMD_JOINSTATE_DOWN, pcmk__str_null_matches)) { if (pending_too_long(scheduler, this_node, when_member, when_online)) { pe_fence_node(scheduler, this_node, "peer pending timed out on joining the process group", FALSE); } else if ((when_member > 0) || (when_online > 0)) { crm_info("- %s is not ready to run resources", pcmk__node_name(this_node)); pcmk__set_node_flags(this_node, pcmk__node_standby); this_node->details->pending = TRUE; } else { crm_trace("%s is down or still coming up", pcmk__node_name(this_node)); } } else if (when_member <= 0) { // Consider PCMK_OPT_PRIORITY_FENCING_DELAY for lost nodes pe_fence_node(scheduler, this_node, "peer is no longer part of the cluster", TRUE); } else if (when_online <= 0) { pe_fence_node(scheduler, this_node, "peer process is no longer available", FALSE); /* Everything is running at this point, now check join state */ } else if (pcmk__str_eq(join, CRMD_JOINSTATE_MEMBER, pcmk__str_none)) { crm_info("%s is active", pcmk__node_name(this_node)); } else if (pcmk__str_any_of(join, CRMD_JOINSTATE_PENDING, CRMD_JOINSTATE_DOWN, NULL)) { crm_info("%s is not ready to run resources", pcmk__node_name(this_node)); pcmk__set_node_flags(this_node, pcmk__node_standby); this_node->details->pending = TRUE; } else { pe_fence_node(scheduler, this_node, "peer was in an unknown state", FALSE); } return (when_member > 0); } static void determine_remote_online_status(pcmk_scheduler_t *scheduler, pcmk_node_t *this_node) { pcmk_resource_t *rsc = this_node->priv->remote; pcmk_resource_t *launcher = NULL; pcmk_node_t *host = NULL; const char *node_type = "Remote"; if (rsc == NULL) { /* This is a leftover node state entry for a former Pacemaker Remote * node whose connection resource was removed. Consider it offline. */ crm_trace("Pacemaker Remote node %s is considered OFFLINE because " "its connection resource has been removed from the CIB", this_node->priv->id); this_node->details->online = FALSE; return; } launcher = rsc->priv->launcher; if (launcher != NULL) { node_type = "Guest"; if (pcmk__list_of_1(rsc->priv->active_nodes)) { host = rsc->priv->active_nodes->data; } } /* If the resource is currently started, mark it online. */ if (rsc->priv->orig_role == pcmk_role_started) { this_node->details->online = TRUE; } /* consider this node shutting down if transitioning start->stop */ if ((rsc->priv->orig_role == pcmk_role_started) && (rsc->priv->next_role == pcmk_role_stopped)) { crm_trace("%s node %s shutting down because connection resource is stopping", node_type, this_node->priv->id); this_node->details->shutdown = TRUE; } /* Now check all the failure conditions. */ if ((launcher != NULL) && pcmk_is_set(launcher->flags, pcmk__rsc_failed)) { crm_trace("Guest node %s UNCLEAN because guest resource failed", this_node->priv->id); this_node->details->online = FALSE; pcmk__set_node_flags(this_node, pcmk__node_remote_reset); } else if (pcmk_is_set(rsc->flags, pcmk__rsc_failed)) { crm_trace("%s node %s OFFLINE because connection resource failed", node_type, this_node->priv->id); this_node->details->online = FALSE; } else if ((rsc->priv->orig_role == pcmk_role_stopped) || ((launcher != NULL) && (launcher->priv->orig_role == pcmk_role_stopped))) { crm_trace("%s node %s OFFLINE because its resource is stopped", node_type, this_node->priv->id); this_node->details->online = FALSE; pcmk__clear_node_flags(this_node, pcmk__node_remote_reset); } else if (host && (host->details->online == FALSE) && host->details->unclean) { crm_trace("Guest node %s UNCLEAN because host is unclean", this_node->priv->id); this_node->details->online = FALSE; pcmk__set_node_flags(this_node, pcmk__node_remote_reset); } else { crm_trace("%s node %s is %s", node_type, this_node->priv->id, this_node->details->online? "ONLINE" : "OFFLINE"); } } static void determine_online_status(const xmlNode *node_state, pcmk_node_t *this_node, pcmk_scheduler_t *scheduler) { gboolean online = FALSE; const char *exp_state = crm_element_value(node_state, PCMK_XA_EXPECTED); CRM_CHECK(this_node != NULL, return); this_node->details->shutdown = FALSE; if (pe__shutdown_requested(this_node)) { this_node->details->shutdown = TRUE; } else if (pcmk__str_eq(exp_state, CRMD_JOINSTATE_MEMBER, pcmk__str_casei)) { pcmk__set_node_flags(this_node, pcmk__node_expected_up); } if (this_node->priv->variant == pcmk__node_variant_ping) { this_node->details->unclean = FALSE; online = FALSE; /* As far as resource management is concerned, * the node is safely offline. * Anyone caught abusing this logic will be shot */ } else if (!pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { online = determine_online_status_no_fencing(scheduler, node_state, this_node); } else { online = determine_online_status_fencing(scheduler, node_state, this_node); } if (online) { this_node->details->online = TRUE; } else { /* remove node from contention */ this_node->assign->score = -PCMK_SCORE_INFINITY; } if (online && this_node->details->shutdown) { /* don't run resources here */ this_node->assign->score = -PCMK_SCORE_INFINITY; } if (this_node->priv->variant == pcmk__node_variant_ping) { crm_info("%s is not a Pacemaker node", pcmk__node_name(this_node)); } else if (this_node->details->unclean) { pcmk__sched_warn(scheduler, "%s is unclean", pcmk__node_name(this_node)); } else if (!this_node->details->online) { crm_trace("%s is offline", pcmk__node_name(this_node)); } else if (this_node->details->shutdown) { crm_info("%s is shutting down", pcmk__node_name(this_node)); } else if (this_node->details->pending) { crm_info("%s is pending", pcmk__node_name(this_node)); } else if (pcmk_is_set(this_node->priv->flags, pcmk__node_standby)) { crm_info("%s is in standby", pcmk__node_name(this_node)); } else if (this_node->details->maintenance) { crm_info("%s is in maintenance", pcmk__node_name(this_node)); } else { crm_info("%s is online", pcmk__node_name(this_node)); } } /*! * \internal * \brief Find the end of a resource's name, excluding any clone suffix * * \param[in] id Resource ID to check * * \return Pointer to last character of resource's base name */ const char * pe_base_name_end(const char *id) { if (!pcmk__str_empty(id)) { const char *end = id + strlen(id) - 1; for (const char *s = end; s > id; --s) { switch (*s) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': break; case ':': return (s == end)? s : (s - 1); default: return end; } } return end; } return NULL; } /*! * \internal * \brief Get a resource name excluding any clone suffix * * \param[in] last_rsc_id Resource ID to check * * \return Pointer to newly allocated string with resource's base name * \note It is the caller's responsibility to free() the result. * This asserts on error, so callers can assume result is not NULL. */ char * clone_strip(const char *last_rsc_id) { const char *end = pe_base_name_end(last_rsc_id); char *basename = NULL; CRM_ASSERT(end); basename = strndup(last_rsc_id, end - last_rsc_id + 1); CRM_ASSERT(basename); return basename; } /*! * \internal * \brief Get the name of the first instance of a cloned resource * * \param[in] last_rsc_id Resource ID to check * * \return Pointer to newly allocated string with resource's base name plus :0 * \note It is the caller's responsibility to free() the result. * This asserts on error, so callers can assume result is not NULL. */ char * clone_zero(const char *last_rsc_id) { const char *end = pe_base_name_end(last_rsc_id); size_t base_name_len = end - last_rsc_id + 1; char *zero = NULL; CRM_ASSERT(end); zero = pcmk__assert_alloc(base_name_len + 3, sizeof(char)); memcpy(zero, last_rsc_id, base_name_len); zero[base_name_len] = ':'; zero[base_name_len + 1] = '0'; return zero; } static pcmk_resource_t * create_fake_resource(const char *rsc_id, const xmlNode *rsc_entry, pcmk_scheduler_t *scheduler) { pcmk_resource_t *rsc = NULL; xmlNode *xml_rsc = pcmk__xe_create(NULL, PCMK_XE_PRIMITIVE); pcmk__xe_copy_attrs(xml_rsc, rsc_entry, pcmk__xaf_none); crm_xml_add(xml_rsc, PCMK_XA_ID, rsc_id); crm_log_xml_debug(xml_rsc, "Orphan resource"); if (pe__unpack_resource(xml_rsc, &rsc, NULL, scheduler) != pcmk_rc_ok) { return NULL; } if (xml_contains_remote_node(xml_rsc)) { pcmk_node_t *node; crm_debug("Detected orphaned remote node %s", rsc_id); node = pcmk_find_node(scheduler, rsc_id); if (node == NULL) { node = pe_create_node(rsc_id, rsc_id, PCMK_VALUE_REMOTE, NULL, scheduler); } link_rsc2remotenode(scheduler, rsc); if (node) { crm_trace("Setting node %s as shutting down due to orphaned connection resource", rsc_id); node->details->shutdown = TRUE; } } if (crm_element_value(rsc_entry, PCMK__META_CONTAINER)) { // This removed resource needs to be mapped to a launcher crm_trace("Launched resource %s was removed from the configuration", rsc_id); pcmk__set_rsc_flags(rsc, pcmk__rsc_removed_launched); } pcmk__set_rsc_flags(rsc, pcmk__rsc_removed); scheduler->priv->resources = g_list_append(scheduler->priv->resources, rsc); return rsc; } /*! * \internal * \brief Create orphan instance for anonymous clone resource history * * \param[in,out] parent Clone resource that orphan will be added to * \param[in] rsc_id Orphan's resource ID * \param[in] node Where orphan is active (for logging only) * \param[in,out] scheduler Scheduler data * * \return Newly added orphaned instance of \p parent */ static pcmk_resource_t * create_anonymous_orphan(pcmk_resource_t *parent, const char *rsc_id, const pcmk_node_t *node, pcmk_scheduler_t *scheduler) { pcmk_resource_t *top = pe__create_clone_child(parent, scheduler); pcmk_resource_t *orphan = NULL; // find_rsc() because we might be a cloned group orphan = top->priv->fns->find_rsc(top, rsc_id, NULL, pcmk_rsc_match_clone_only); pcmk__rsc_debug(parent, "Created orphan %s for %s: %s on %s", top->id, parent->id, rsc_id, pcmk__node_name(node)); return orphan; } /*! * \internal * \brief Check a node for an instance of an anonymous clone * * Return a child instance of the specified anonymous clone, in order of * preference: (1) the instance running on the specified node, if any; * (2) an inactive instance (i.e. within the total of \c PCMK_META_CLONE_MAX * instances); (3) a newly created orphan (that is, \c PCMK_META_CLONE_MAX * instances are already active). * * \param[in,out] scheduler Scheduler data * \param[in] node Node on which to check for instance * \param[in,out] parent Clone to check * \param[in] rsc_id Name of cloned resource in history (no instance) */ static pcmk_resource_t * find_anonymous_clone(pcmk_scheduler_t *scheduler, const pcmk_node_t *node, pcmk_resource_t *parent, const char *rsc_id) { GList *rIter = NULL; pcmk_resource_t *rsc = NULL; pcmk_resource_t *inactive_instance = NULL; gboolean skip_inactive = FALSE; CRM_ASSERT(pcmk__is_anonymous_clone(parent)); // Check for active (or partially active, for cloned groups) instance pcmk__rsc_trace(parent, "Looking for %s on %s in %s", rsc_id, pcmk__node_name(node), parent->id); for (rIter = parent->priv->children; (rIter != NULL) && (rsc == NULL); rIter = rIter->next) { GList *locations = NULL; pcmk_resource_t *child = rIter->data; /* Check whether this instance is already known to be active or pending * anywhere, at this stage of unpacking. Because this function is called * for a resource before the resource's individual operation history * entries are unpacked, locations will generally not contain the * desired node. * * However, there are three exceptions: * (1) when child is a cloned group and we have already unpacked the * history of another member of the group on the same node; * (2) when we've already unpacked the history of another numbered * instance on the same node (which can happen if * PCMK_META_GLOBALLY_UNIQUE was flipped from true to false); and * (3) when we re-run calculations on the same scheduler data as part of * a simulation. */ child->priv->fns->location(child, &locations, pcmk__rsc_node_current |pcmk__rsc_node_pending); if (locations) { /* We should never associate the same numbered anonymous clone * instance with multiple nodes, and clone instances can't migrate, * so there must be only one location, regardless of history. */ CRM_LOG_ASSERT(locations->next == NULL); if (pcmk__same_node((pcmk_node_t *) locations->data, node)) { /* This child instance is active on the requested node, so check * for a corresponding configured resource. We use find_rsc() * instead of child because child may be a cloned group, and we * need the particular member corresponding to rsc_id. * * If the history entry is orphaned, rsc will be NULL. */ rsc = parent->priv->fns->find_rsc(child, rsc_id, NULL, pcmk_rsc_match_clone_only); if (rsc) { /* If there are multiple instance history entries for an * anonymous clone in a single node's history (which can * happen if PCMK_META_GLOBALLY_UNIQUE is switched from true * to false), we want to consider the instances beyond the * first as orphans, even if there are inactive instance * numbers available. */ if (rsc->priv->active_nodes != NULL) { crm_notice("Active (now-)anonymous clone %s has " "multiple (orphan) instance histories on %s", parent->id, pcmk__node_name(node)); skip_inactive = TRUE; rsc = NULL; } else { pcmk__rsc_trace(parent, "Resource %s, active", rsc->id); } } } g_list_free(locations); } else { pcmk__rsc_trace(parent, "Resource %s, skip inactive", child->id); if (!skip_inactive && !inactive_instance && !pcmk_is_set(child->flags, pcmk__rsc_blocked)) { // Remember one inactive instance in case we don't find active inactive_instance = parent->priv->fns->find_rsc(child, rsc_id, NULL, pcmk_rsc_match_clone_only); /* ... but don't use it if it was already associated with a * pending action on another node */ if (inactive_instance != NULL) { const pcmk_node_t *pending_node = NULL; pending_node = inactive_instance->priv->pending_node; if ((pending_node != NULL) && !pcmk__same_node(pending_node, node)) { inactive_instance = NULL; } } } } } if ((rsc == NULL) && !skip_inactive && (inactive_instance != NULL)) { pcmk__rsc_trace(parent, "Resource %s, empty slot", inactive_instance->id); rsc = inactive_instance; } /* If the resource has PCMK_META_REQUIRES set to PCMK_VALUE_QUORUM or * PCMK_VALUE_NOTHING, and we don't have a clone instance for every node, we * don't want to consume a valid instance number for unclean nodes. Such * instances may appear to be active according to the history, but should be * considered inactive, so we can start an instance elsewhere. Treat such * instances as orphans. * * An exception is instances running on guest nodes -- since guest node * "fencing" is actually just a resource stop, requires shouldn't apply. * * @TODO Ideally, we'd use an inactive instance number if it is not needed * for any clean instances. However, we don't know that at this point. */ if ((rsc != NULL) && !pcmk_is_set(rsc->flags, pcmk__rsc_needs_fencing) && (!node->details->online || node->details->unclean) && !pcmk__is_guest_or_bundle_node(node) && !pe__is_universal_clone(parent, scheduler)) { rsc = NULL; } if (rsc == NULL) { rsc = create_anonymous_orphan(parent, rsc_id, node, scheduler); pcmk__rsc_trace(parent, "Resource %s, orphan", rsc->id); } return rsc; } static pcmk_resource_t * unpack_find_resource(pcmk_scheduler_t *scheduler, const pcmk_node_t *node, const char *rsc_id) { pcmk_resource_t *rsc = NULL; pcmk_resource_t *parent = NULL; crm_trace("looking for %s", rsc_id); rsc = pe_find_resource(scheduler->priv->resources, rsc_id); if (rsc == NULL) { /* If we didn't find the resource by its name in the operation history, * check it again as a clone instance. Even when PCMK_META_CLONE_MAX=0, * we create a single :0 orphan to match against here. */ char *clone0_id = clone_zero(rsc_id); pcmk_resource_t *clone0 = pe_find_resource(scheduler->priv->resources, clone0_id); if (clone0 && !pcmk_is_set(clone0->flags, pcmk__rsc_unique)) { rsc = clone0; parent = uber_parent(clone0); crm_trace("%s found as %s (%s)", rsc_id, clone0_id, parent->id); } else { crm_trace("%s is not known as %s either (orphan)", rsc_id, clone0_id); } free(clone0_id); } else if (rsc->priv->variant > pcmk__rsc_variant_primitive) { crm_trace("Resource history for %s is orphaned " "because it is no longer primitive", rsc_id); return NULL; } else { parent = uber_parent(rsc); } if (pcmk__is_anonymous_clone(parent)) { if (pcmk__is_bundled(parent)) { rsc = pe__find_bundle_replica(parent->priv->parent, node); } else { char *base = clone_strip(rsc_id); rsc = find_anonymous_clone(scheduler, node, parent, base); free(base); CRM_ASSERT(rsc != NULL); } } if (rsc && !pcmk__str_eq(rsc_id, rsc->id, pcmk__str_none) && !pcmk__str_eq(rsc_id, rsc->priv->history_id, pcmk__str_none)) { pcmk__str_update(&(rsc->priv->history_id), rsc_id); pcmk__rsc_debug(rsc, "Internally renamed %s on %s to %s%s", rsc_id, pcmk__node_name(node), rsc->id, pcmk_is_set(rsc->flags, pcmk__rsc_removed)? " (ORPHAN)" : ""); } return rsc; } static pcmk_resource_t * process_orphan_resource(const xmlNode *rsc_entry, const pcmk_node_t *node, pcmk_scheduler_t *scheduler) { pcmk_resource_t *rsc = NULL; const char *rsc_id = crm_element_value(rsc_entry, PCMK_XA_ID); crm_debug("Detected orphan resource %s on %s", rsc_id, pcmk__node_name(node)); rsc = create_fake_resource(rsc_id, rsc_entry, scheduler); if (rsc == NULL) { return NULL; } if (!pcmk_is_set(scheduler->flags, pcmk__sched_stop_removed_resources)) { pcmk__clear_rsc_flags(rsc, pcmk__rsc_managed); } else { CRM_CHECK(rsc != NULL, return NULL); pcmk__rsc_trace(rsc, "Added orphan %s", rsc->id); resource_location(rsc, NULL, -PCMK_SCORE_INFINITY, "__orphan_do_not_run__", scheduler); } return rsc; } static void process_rsc_state(pcmk_resource_t *rsc, pcmk_node_t *node, enum pcmk__on_fail on_fail) { pcmk_node_t *tmpnode = NULL; char *reason = NULL; enum pcmk__on_fail save_on_fail = pcmk__on_fail_ignore; pcmk_scheduler_t *scheduler = NULL; bool known_active = false; CRM_ASSERT(rsc); scheduler = rsc->priv->scheduler; known_active = (rsc->priv->orig_role > pcmk_role_stopped); pcmk__rsc_trace(rsc, "Resource %s is %s on %s: on_fail=%s", rsc->id, pcmk_role_text(rsc->priv->orig_role), pcmk__node_name(node), pcmk__on_fail_text(on_fail)); /* process current state */ if (rsc->priv->orig_role != pcmk_role_unknown) { pcmk_resource_t *iter = rsc; while (iter) { if (g_hash_table_lookup(iter->priv->probed_nodes, node->priv->id) == NULL) { pcmk_node_t *n = pe__copy_node(node); pcmk__rsc_trace(rsc, "%s (%s in history) known on %s", rsc->id, pcmk__s(rsc->priv->history_id, "the same"), pcmk__node_name(n)); g_hash_table_insert(iter->priv->probed_nodes, (gpointer) n->priv->id, n); } if (pcmk_is_set(iter->flags, pcmk__rsc_unique)) { break; } iter = iter->priv->parent; } } /* If a managed resource is believed to be running, but node is down ... */ if (known_active && !node->details->online && !node->details->maintenance && pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { gboolean should_fence = FALSE; /* If this is a guest node, fence it (regardless of whether fencing is * enabled, because guest node fencing is done by recovery of the * container resource rather than by the fencer). Mark the resource * we're processing as failed. When the guest comes back up, its * operation history in the CIB will be cleared, freeing the affected * resource to run again once we are sure we know its state. */ if (pcmk__is_guest_or_bundle_node(node)) { pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); should_fence = TRUE; } else if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { if (pcmk__is_remote_node(node) && (node->priv->remote != NULL) && !pcmk_is_set(node->priv->remote->flags, pcmk__rsc_failed)) { /* Setting unseen means that fencing of the remote node will * occur only if the connection resource is not going to start * somewhere. This allows connection resources on a failed * cluster node to move to another node without requiring the * remote nodes to be fenced as well. */ pcmk__clear_node_flags(node, pcmk__node_seen); reason = crm_strdup_printf("%s is active there (fencing will be" " revoked if remote connection can " "be re-established elsewhere)", rsc->id); } should_fence = TRUE; } if (should_fence) { if (reason == NULL) { reason = crm_strdup_printf("%s is thought to be active there", rsc->id); } pe_fence_node(scheduler, node, reason, FALSE); } free(reason); } /* In order to calculate priority_fencing_delay correctly, save the failure information and pass it to native_add_running(). */ save_on_fail = on_fail; if (node->details->unclean) { /* No extra processing needed * Also allows resources to be started again after a node is shot */ on_fail = pcmk__on_fail_ignore; } switch (on_fail) { case pcmk__on_fail_ignore: /* nothing to do */ break; case pcmk__on_fail_demote: pcmk__set_rsc_flags(rsc, pcmk__rsc_failed); demote_action(rsc, node, FALSE); break; case pcmk__on_fail_fence_node: /* treat it as if it is still running * but also mark the node as unclean */ reason = crm_strdup_printf("%s failed there", rsc->id); pe_fence_node(scheduler, node, reason, FALSE); free(reason); break; case pcmk__on_fail_standby_node: pcmk__set_node_flags(node, pcmk__node_standby|pcmk__node_fail_standby); break; case pcmk__on_fail_block: /* is_managed == FALSE will prevent any * actions being sent for the resource */ pcmk__clear_rsc_flags(rsc, pcmk__rsc_managed); pcmk__set_rsc_flags(rsc, pcmk__rsc_blocked); break; case pcmk__on_fail_ban: /* make sure it comes up somewhere else * or not at all */ resource_location(rsc, node, -PCMK_SCORE_INFINITY, "__action_migration_auto__", scheduler); break; case pcmk__on_fail_stop: pe__set_next_role(rsc, pcmk_role_stopped, PCMK_META_ON_FAIL "=" PCMK_VALUE_STOP); break; case pcmk__on_fail_restart: if (known_active) { pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); stop_action(rsc, node, FALSE); } break; case pcmk__on_fail_restart_container: pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); if ((rsc->priv->launcher != NULL) && pcmk__is_bundled(rsc)) { /* A bundle's remote connection can run on a different node than * the bundle's container. We don't necessarily know where the * container is running yet, so remember it and add a stop * action for it later. */ scheduler->priv->stop_needed = g_list_prepend(scheduler->priv->stop_needed, rsc->priv->launcher); } else if (rsc->priv->launcher != NULL) { stop_action(rsc->priv->launcher, node, FALSE); } else if (known_active) { stop_action(rsc, node, FALSE); } break; case pcmk__on_fail_reset_remote: pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { tmpnode = NULL; if (pcmk_is_set(rsc->flags, pcmk__rsc_is_remote_connection)) { tmpnode = pcmk_find_node(scheduler, rsc->id); } if (pcmk__is_remote_node(tmpnode) && !pcmk_is_set(tmpnode->priv->flags, pcmk__node_remote_fenced)) { /* The remote connection resource failed in a way that * should result in fencing the remote node. */ pe_fence_node(scheduler, tmpnode, "remote connection is unrecoverable", FALSE); } } /* require the stop action regardless if fencing is occurring or not. */ if (known_active) { stop_action(rsc, node, FALSE); } /* if reconnect delay is in use, prevent the connection from exiting the * "STOPPED" role until the failure is cleared by the delay timeout. */ if (rsc->priv->remote_reconnect_ms > 0U) { pe__set_next_role(rsc, pcmk_role_stopped, "remote reset"); } break; } /* Ensure a remote connection failure forces an unclean Pacemaker Remote * node to be fenced. By marking the node as seen, the failure will result * in a fencing operation regardless if we're going to attempt to reconnect * in this transition. */ if (pcmk_all_flags_set(rsc->flags, pcmk__rsc_failed|pcmk__rsc_is_remote_connection)) { tmpnode = pcmk_find_node(scheduler, rsc->id); if (tmpnode && tmpnode->details->unclean) { pcmk__set_node_flags(tmpnode, pcmk__node_seen); } } if (known_active) { if (pcmk_is_set(rsc->flags, pcmk__rsc_removed)) { if (pcmk_is_set(rsc->flags, pcmk__rsc_managed)) { crm_notice("Removed resource %s is active on %s and will be " "stopped when possible", rsc->id, pcmk__node_name(node)); } else { crm_notice("Removed resource %s must be stopped manually on %s " "because " PCMK_OPT_STOP_ORPHAN_RESOURCES " is set to false", rsc->id, pcmk__node_name(node)); } } native_add_running(rsc, node, scheduler, (save_on_fail != pcmk__on_fail_ignore)); switch (on_fail) { case pcmk__on_fail_ignore: break; case pcmk__on_fail_demote: case pcmk__on_fail_block: pcmk__set_rsc_flags(rsc, pcmk__rsc_failed); break; default: pcmk__set_rsc_flags(rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); break; } } else if ((rsc->priv->history_id != NULL) && (strchr(rsc->priv->history_id, ':') != NULL)) { /* Only do this for older status sections that included instance numbers * Otherwise stopped instances will appear as orphans */ pcmk__rsc_trace(rsc, "Clearing history ID %s for %s (stopped)", rsc->priv->history_id, rsc->id); free(rsc->priv->history_id); rsc->priv->history_id = NULL; } else { GList *possible_matches = pe__resource_actions(rsc, node, PCMK_ACTION_STOP, FALSE); GList *gIter = possible_matches; for (; gIter != NULL; gIter = gIter->next) { pcmk_action_t *stop = (pcmk_action_t *) gIter->data; pcmk__set_action_flags(stop, pcmk__action_optional); } g_list_free(possible_matches); } /* A successful stop after migrate_to on the migration source doesn't make * the partially migrated resource stopped on the migration target. */ if ((rsc->priv->orig_role == pcmk_role_stopped) && (rsc->priv->active_nodes != NULL) && (rsc->priv->partial_migration_target != NULL) && pcmk__same_node(rsc->priv->partial_migration_source, node)) { rsc->priv->orig_role = pcmk_role_started; } } /* create active recurring operations as optional */ static void process_recurring(pcmk_node_t *node, pcmk_resource_t *rsc, int start_index, int stop_index, GList *sorted_op_list, pcmk_scheduler_t *scheduler) { int counter = -1; const char *task = NULL; const char *status = NULL; GList *gIter = sorted_op_list; CRM_ASSERT(rsc); pcmk__rsc_trace(rsc, "%s: Start index %d, stop index = %d", rsc->id, start_index, stop_index); for (; gIter != NULL; gIter = gIter->next) { xmlNode *rsc_op = (xmlNode *) gIter->data; guint interval_ms = 0; char *key = NULL; const char *id = pcmk__xe_id(rsc_op); counter++; if (node->details->online == FALSE) { pcmk__rsc_trace(rsc, "Skipping %s on %s: node is offline", rsc->id, pcmk__node_name(node)); break; /* Need to check if there's a monitor for role="Stopped" */ } else if (start_index < stop_index && counter <= stop_index) { pcmk__rsc_trace(rsc, "Skipping %s on %s: resource is not active", id, pcmk__node_name(node)); continue; } else if (counter < start_index) { pcmk__rsc_trace(rsc, "Skipping %s on %s: old %d", id, pcmk__node_name(node), counter); continue; } crm_element_value_ms(rsc_op, PCMK_META_INTERVAL, &interval_ms); if (interval_ms == 0) { pcmk__rsc_trace(rsc, "Skipping %s on %s: non-recurring", id, pcmk__node_name(node)); continue; } status = crm_element_value(rsc_op, PCMK__XA_OP_STATUS); if (pcmk__str_eq(status, "-1", pcmk__str_casei)) { pcmk__rsc_trace(rsc, "Skipping %s on %s: status", id, pcmk__node_name(node)); continue; } task = crm_element_value(rsc_op, PCMK_XA_OPERATION); /* create the action */ key = pcmk__op_key(rsc->id, task, interval_ms); pcmk__rsc_trace(rsc, "Creating %s on %s", key, pcmk__node_name(node)); custom_action(rsc, key, task, node, TRUE, scheduler); } } void calculate_active_ops(const GList *sorted_op_list, int *start_index, int *stop_index) { int counter = -1; int implied_monitor_start = -1; int implied_clone_start = -1; const char *task = NULL; const char *status = NULL; *stop_index = -1; *start_index = -1; for (const GList *iter = sorted_op_list; iter != NULL; iter = iter->next) { const xmlNode *rsc_op = (const xmlNode *) iter->data; counter++; task = crm_element_value(rsc_op, PCMK_XA_OPERATION); status = crm_element_value(rsc_op, PCMK__XA_OP_STATUS); if (pcmk__str_eq(task, PCMK_ACTION_STOP, pcmk__str_casei) && pcmk__str_eq(status, "0", pcmk__str_casei)) { *stop_index = counter; } else if (pcmk__strcase_any_of(task, PCMK_ACTION_START, PCMK_ACTION_MIGRATE_FROM, NULL)) { *start_index = counter; } else if ((implied_monitor_start <= *stop_index) && pcmk__str_eq(task, PCMK_ACTION_MONITOR, pcmk__str_casei)) { const char *rc = crm_element_value(rsc_op, PCMK__XA_RC_CODE); if (pcmk__strcase_any_of(rc, "0", "8", NULL)) { implied_monitor_start = counter; } } else if (pcmk__strcase_any_of(task, PCMK_ACTION_PROMOTE, PCMK_ACTION_DEMOTE, NULL)) { implied_clone_start = counter; } } if (*start_index == -1) { if (implied_clone_start != -1) { *start_index = implied_clone_start; } else if (implied_monitor_start != -1) { *start_index = implied_monitor_start; } } } // If resource history entry has shutdown lock, remember lock node and time static void unpack_shutdown_lock(const xmlNode *rsc_entry, pcmk_resource_t *rsc, const pcmk_node_t *node, pcmk_scheduler_t *scheduler) { time_t lock_time = 0; // When lock started (i.e. node shutdown time) if ((crm_element_value_epoch(rsc_entry, PCMK_OPT_SHUTDOWN_LOCK, &lock_time) == pcmk_ok) && (lock_time != 0)) { if ((scheduler->priv->shutdown_lock_ms > 0U) && (get_effective_time(scheduler) > (lock_time + (scheduler->priv->shutdown_lock_ms / 1000U)))) { pcmk__rsc_info(rsc, "Shutdown lock for %s on %s expired", rsc->id, pcmk__node_name(node)); pe__clear_resource_history(rsc, node); } else { rsc->priv->lock_node = node; rsc->priv->lock_time = lock_time; } } } /*! * \internal * \brief Unpack one \c PCMK__XE_LRM_RESOURCE entry from a node's CIB status * * \param[in,out] node Node whose status is being unpacked * \param[in] rsc_entry \c PCMK__XE_LRM_RESOURCE XML being unpacked * \param[in,out] scheduler Scheduler data * * \return Resource corresponding to the entry, or NULL if no operation history */ static pcmk_resource_t * unpack_lrm_resource(pcmk_node_t *node, const xmlNode *lrm_resource, pcmk_scheduler_t *scheduler) { GList *gIter = NULL; int stop_index = -1; int start_index = -1; enum rsc_role_e req_role = pcmk_role_unknown; const char *rsc_id = pcmk__xe_id(lrm_resource); pcmk_resource_t *rsc = NULL; GList *op_list = NULL; GList *sorted_op_list = NULL; xmlNode *rsc_op = NULL; xmlNode *last_failure = NULL; enum pcmk__on_fail on_fail = pcmk__on_fail_ignore; enum rsc_role_e saved_role = pcmk_role_unknown; if (rsc_id == NULL) { pcmk__config_err("Ignoring invalid " PCMK__XE_LRM_RESOURCE " entry: No " PCMK_XA_ID); crm_log_xml_info(lrm_resource, "missing-id"); return NULL; } crm_trace("Unpacking " PCMK__XE_LRM_RESOURCE " for %s on %s", rsc_id, pcmk__node_name(node)); /* Build a list of individual PCMK__XE_LRM_RSC_OP entries, so we can sort * them */ for (rsc_op = pcmk__xe_first_child(lrm_resource, PCMK__XE_LRM_RSC_OP, NULL, NULL); rsc_op != NULL; rsc_op = pcmk__xe_next_same(rsc_op)) { op_list = g_list_prepend(op_list, rsc_op); } if (!pcmk_is_set(scheduler->flags, pcmk__sched_shutdown_lock)) { if (op_list == NULL) { // If there are no operations, there is nothing to do return NULL; } } /* find the resource */ rsc = unpack_find_resource(scheduler, node, rsc_id); if (rsc == NULL) { if (op_list == NULL) { // If there are no operations, there is nothing to do return NULL; } else { rsc = process_orphan_resource(lrm_resource, node, scheduler); } } CRM_ASSERT(rsc != NULL); // Check whether the resource is "shutdown-locked" to this node if (pcmk_is_set(scheduler->flags, pcmk__sched_shutdown_lock)) { unpack_shutdown_lock(lrm_resource, rsc, node, scheduler); } /* process operations */ saved_role = rsc->priv->orig_role; rsc->priv->orig_role = pcmk_role_unknown; sorted_op_list = g_list_sort(op_list, sort_op_by_callid); for (gIter = sorted_op_list; gIter != NULL; gIter = gIter->next) { xmlNode *rsc_op = (xmlNode *) gIter->data; unpack_rsc_op(rsc, node, rsc_op, &last_failure, &on_fail); } /* create active recurring operations as optional */ calculate_active_ops(sorted_op_list, &start_index, &stop_index); process_recurring(node, rsc, start_index, stop_index, sorted_op_list, scheduler); /* no need to free the contents */ g_list_free(sorted_op_list); process_rsc_state(rsc, node, on_fail); if (get_target_role(rsc, &req_role)) { if ((rsc->priv->next_role == pcmk_role_unknown) || (req_role < rsc->priv->next_role)) { pe__set_next_role(rsc, req_role, PCMK_META_TARGET_ROLE); } else if (req_role > rsc->priv->next_role) { pcmk__rsc_info(rsc, "%s: Not overwriting calculated next role %s" " with requested next role %s", rsc->id, pcmk_role_text(rsc->priv->next_role), pcmk_role_text(req_role)); } } if (saved_role > rsc->priv->orig_role) { rsc->priv->orig_role = saved_role; } return rsc; } static void handle_removed_launched_resources(const xmlNode *lrm_rsc_list, pcmk_scheduler_t *scheduler) { for (const xmlNode *rsc_entry = pcmk__xe_first_child(lrm_rsc_list, NULL, NULL, NULL); rsc_entry != NULL; rsc_entry = pcmk__xe_next(rsc_entry)) { pcmk_resource_t *rsc; pcmk_resource_t *launcher = NULL; const char *rsc_id; const char *launcher_id = NULL; if (!pcmk__xe_is(rsc_entry, PCMK__XE_LRM_RESOURCE)) { continue; } launcher_id = crm_element_value(rsc_entry, PCMK__META_CONTAINER); rsc_id = crm_element_value(rsc_entry, PCMK_XA_ID); if ((launcher_id == NULL) || (rsc_id == NULL)) { continue; } launcher = pe_find_resource(scheduler->priv->resources, launcher_id); if (launcher == NULL) { continue; } rsc = pe_find_resource(scheduler->priv->resources, rsc_id); if ((rsc == NULL) || (rsc->priv->launcher != NULL) || !pcmk_is_set(rsc->flags, pcmk__rsc_removed_launched)) { continue; } pcmk__rsc_trace(rsc, "Mapped launcher of removed resource %s to %s", rsc->id, launcher_id); rsc->priv->launcher = launcher; launcher->priv->launched = g_list_append(launcher->priv->launched, rsc); } } /*! * \internal * \brief Unpack one node's lrm status section * * \param[in,out] node Node whose status is being unpacked * \param[in] xml CIB node state XML * \param[in,out] scheduler Scheduler data */ static void unpack_node_lrm(pcmk_node_t *node, const xmlNode *xml, pcmk_scheduler_t *scheduler) { bool found_removed_launched_resource = false; // Drill down to PCMK__XE_LRM_RESOURCES section xml = pcmk__xe_first_child(xml, PCMK__XE_LRM, NULL, NULL); if (xml == NULL) { return; } xml = pcmk__xe_first_child(xml, PCMK__XE_LRM_RESOURCES, NULL, NULL); if (xml == NULL) { return; } // Unpack each PCMK__XE_LRM_RESOURCE entry for (const xmlNode *rsc_entry = pcmk__xe_first_child(xml, PCMK__XE_LRM_RESOURCE, NULL, NULL); rsc_entry != NULL; rsc_entry = pcmk__xe_next_same(rsc_entry)) { pcmk_resource_t *rsc = unpack_lrm_resource(node, rsc_entry, scheduler); if ((rsc != NULL) && pcmk_is_set(rsc->flags, pcmk__rsc_removed_launched)) { found_removed_launched_resource = true; } } /* Now that all resource state has been unpacked for this node, map any * removed launched resources to their launchers. */ if (found_removed_launched_resource) { handle_removed_launched_resources(xml, scheduler); } } static void set_active(pcmk_resource_t *rsc) { const pcmk_resource_t *top = pe__const_top_resource(rsc, false); if (top && pcmk_is_set(top->flags, pcmk__rsc_promotable)) { rsc->priv->orig_role = pcmk_role_unpromoted; } else { rsc->priv->orig_role = pcmk_role_started; } } static void set_node_score(gpointer key, gpointer value, gpointer user_data) { pcmk_node_t *node = value; int *score = user_data; node->assign->score = *score; } #define XPATH_NODE_STATE "/" PCMK_XE_CIB "/" PCMK_XE_STATUS \ "/" PCMK__XE_NODE_STATE #define SUB_XPATH_LRM_RESOURCE "/" PCMK__XE_LRM \ "/" PCMK__XE_LRM_RESOURCES \ "/" PCMK__XE_LRM_RESOURCE #define SUB_XPATH_LRM_RSC_OP "/" PCMK__XE_LRM_RSC_OP static xmlNode * find_lrm_op(const char *resource, const char *op, const char *node, const char *source, int target_rc, pcmk_scheduler_t *scheduler) { GString *xpath = NULL; xmlNode *xml = NULL; CRM_CHECK((resource != NULL) && (op != NULL) && (node != NULL), return NULL); xpath = g_string_sized_new(256); pcmk__g_strcat(xpath, XPATH_NODE_STATE "[@" PCMK_XA_UNAME "='", node, "']" SUB_XPATH_LRM_RESOURCE "[@" PCMK_XA_ID "='", resource, "']" SUB_XPATH_LRM_RSC_OP "[@" PCMK_XA_OPERATION "='", op, "'", NULL); /* Need to check against transition_magic too? */ if ((source != NULL) && (strcmp(op, PCMK_ACTION_MIGRATE_TO) == 0)) { pcmk__g_strcat(xpath, " and @" PCMK__META_MIGRATE_TARGET "='", source, "']", NULL); } else if ((source != NULL) && (strcmp(op, PCMK_ACTION_MIGRATE_FROM) == 0)) { pcmk__g_strcat(xpath, " and @" PCMK__META_MIGRATE_SOURCE "='", source, "']", NULL); } else { g_string_append_c(xpath, ']'); } xml = get_xpath_object((const char *) xpath->str, scheduler->input, LOG_DEBUG); g_string_free(xpath, TRUE); if (xml && target_rc >= 0) { int rc = PCMK_OCF_UNKNOWN_ERROR; int status = PCMK_EXEC_ERROR; crm_element_value_int(xml, PCMK__XA_RC_CODE, &rc); crm_element_value_int(xml, PCMK__XA_OP_STATUS, &status); if ((rc != target_rc) || (status != PCMK_EXEC_DONE)) { return NULL; } } return xml; } static xmlNode * find_lrm_resource(const char *rsc_id, const char *node_name, pcmk_scheduler_t *scheduler) { GString *xpath = NULL; xmlNode *xml = NULL; CRM_CHECK((rsc_id != NULL) && (node_name != NULL), return NULL); xpath = g_string_sized_new(256); pcmk__g_strcat(xpath, XPATH_NODE_STATE "[@" PCMK_XA_UNAME "='", node_name, "']" SUB_XPATH_LRM_RESOURCE "[@" PCMK_XA_ID "='", rsc_id, "']", NULL); xml = get_xpath_object((const char *) xpath->str, scheduler->input, LOG_DEBUG); g_string_free(xpath, TRUE); return xml; } /*! * \internal * \brief Check whether a resource has no completed action history on a node * * \param[in,out] rsc Resource to check * \param[in] node_name Node to check * * \return true if \p rsc_id is unknown on \p node_name, otherwise false */ static bool unknown_on_node(pcmk_resource_t *rsc, const char *node_name) { bool result = false; xmlXPathObjectPtr search; char *xpath = NULL; xpath = crm_strdup_printf(XPATH_NODE_STATE "[@" PCMK_XA_UNAME "='%s']" SUB_XPATH_LRM_RESOURCE "[@" PCMK_XA_ID "='%s']" SUB_XPATH_LRM_RSC_OP "[@" PCMK__XA_RC_CODE "!='%d']", node_name, rsc->id, PCMK_OCF_UNKNOWN); search = xpath_search(rsc->priv->scheduler->input, xpath); result = (numXpathResults(search) == 0); freeXpathObject(search); free(xpath); return result; } /*! * \internal * \brief Check whether a probe/monitor indicating the resource was not running * on a node happened after some event * * \param[in] rsc_id Resource being checked * \param[in] node_name Node being checked * \param[in] xml_op Event that monitor is being compared to * \param[in,out] scheduler Scheduler data * * \return true if such a monitor happened after event, false otherwise */ static bool monitor_not_running_after(const char *rsc_id, const char *node_name, const xmlNode *xml_op, pcmk_scheduler_t *scheduler) { /* Any probe/monitor operation on the node indicating it was not running * there */ xmlNode *monitor = find_lrm_op(rsc_id, PCMK_ACTION_MONITOR, node_name, NULL, PCMK_OCF_NOT_RUNNING, scheduler); return (monitor != NULL) && (pe__is_newer_op(monitor, xml_op) > 0); } /*! * \internal * \brief Check whether any non-monitor operation on a node happened after some * event * * \param[in] rsc_id Resource being checked * \param[in] node_name Node being checked * \param[in] xml_op Event that non-monitor is being compared to * \param[in,out] scheduler Scheduler data * * \return true if such a operation happened after event, false otherwise */ static bool non_monitor_after(const char *rsc_id, const char *node_name, const xmlNode *xml_op, pcmk_scheduler_t *scheduler) { xmlNode *lrm_resource = NULL; lrm_resource = find_lrm_resource(rsc_id, node_name, scheduler); if (lrm_resource == NULL) { return false; } for (xmlNode *op = pcmk__xe_first_child(lrm_resource, PCMK__XE_LRM_RSC_OP, NULL, NULL); op != NULL; op = pcmk__xe_next_same(op)) { const char * task = NULL; if (op == xml_op) { continue; } task = crm_element_value(op, PCMK_XA_OPERATION); if (pcmk__str_any_of(task, PCMK_ACTION_START, PCMK_ACTION_STOP, PCMK_ACTION_MIGRATE_TO, PCMK_ACTION_MIGRATE_FROM, NULL) && pe__is_newer_op(op, xml_op) > 0) { return true; } } return false; } /*! * \internal * \brief Check whether the resource has newer state on a node after a migration * attempt * * \param[in] rsc_id Resource being checked * \param[in] node_name Node being checked * \param[in] migrate_to Any migrate_to event that is being compared to * \param[in] migrate_from Any migrate_from event that is being compared to * \param[in,out] scheduler Scheduler data * * \return true if such a operation happened after event, false otherwise */ static bool newer_state_after_migrate(const char *rsc_id, const char *node_name, const xmlNode *migrate_to, const xmlNode *migrate_from, pcmk_scheduler_t *scheduler) { const xmlNode *xml_op = (migrate_from != NULL)? migrate_from : migrate_to; const char *source = crm_element_value(xml_op, PCMK__META_MIGRATE_SOURCE); /* It's preferred to compare to the migrate event on the same node if * existing, since call ids are more reliable. */ if ((xml_op != migrate_to) && (migrate_to != NULL) && pcmk__str_eq(node_name, source, pcmk__str_casei)) { xml_op = migrate_to; } /* If there's any newer non-monitor operation on the node, or any newer * probe/monitor operation on the node indicating it was not running there, * the migration events potentially no longer matter for the node. */ return non_monitor_after(rsc_id, node_name, xml_op, scheduler) || monitor_not_running_after(rsc_id, node_name, xml_op, scheduler); } /*! * \internal * \brief Parse migration source and target node names from history entry * * \param[in] entry Resource history entry for a migration action * \param[in] source_node If not NULL, source must match this node * \param[in] target_node If not NULL, target must match this node * \param[out] source_name Where to store migration source node name * \param[out] target_name Where to store migration target node name * * \return Standard Pacemaker return code */ static int get_migration_node_names(const xmlNode *entry, const pcmk_node_t *source_node, const pcmk_node_t *target_node, const char **source_name, const char **target_name) { *source_name = crm_element_value(entry, PCMK__META_MIGRATE_SOURCE); *target_name = crm_element_value(entry, PCMK__META_MIGRATE_TARGET); if ((*source_name == NULL) || (*target_name == NULL)) { pcmk__config_err("Ignoring resource history entry %s without " PCMK__META_MIGRATE_SOURCE " and " PCMK__META_MIGRATE_TARGET, pcmk__xe_id(entry)); return pcmk_rc_unpack_error; } if ((source_node != NULL) && !pcmk__str_eq(*source_name, source_node->priv->name, pcmk__str_casei|pcmk__str_null_matches)) { pcmk__config_err("Ignoring resource history entry %s because " PCMK__META_MIGRATE_SOURCE "='%s' does not match %s", pcmk__xe_id(entry), *source_name, pcmk__node_name(source_node)); return pcmk_rc_unpack_error; } if ((target_node != NULL) && !pcmk__str_eq(*target_name, target_node->priv->name, pcmk__str_casei|pcmk__str_null_matches)) { pcmk__config_err("Ignoring resource history entry %s because " PCMK__META_MIGRATE_TARGET "='%s' does not match %s", pcmk__xe_id(entry), *target_name, pcmk__node_name(target_node)); return pcmk_rc_unpack_error; } return pcmk_rc_ok; } /* * \internal * \brief Add a migration source to a resource's list of dangling migrations * * If the migrate_to and migrate_from actions in a live migration both * succeeded, but there is no stop on the source, the migration is considered * "dangling." Add the source to the resource's dangling migration list, which * will be used to schedule a stop on the source without affecting the target. * * \param[in,out] rsc Resource involved in migration * \param[in] node Migration source */ static void add_dangling_migration(pcmk_resource_t *rsc, const pcmk_node_t *node) { pcmk__rsc_trace(rsc, "Dangling migration of %s requires stop on %s", rsc->id, pcmk__node_name(node)); rsc->priv->orig_role = pcmk_role_stopped; rsc->priv->dangling_migration_sources = g_list_prepend(rsc->priv->dangling_migration_sources, (gpointer) node); } /*! * \internal * \brief Update resource role etc. after a successful migrate_to action * * \param[in,out] history Parsed action result history */ static void unpack_migrate_to_success(struct action_history *history) { /* A complete migration sequence is: * 1. migrate_to on source node (which succeeded if we get to this function) * 2. migrate_from on target node * 3. stop on source node * * If no migrate_from has happened, the migration is considered to be * "partial". If the migrate_from succeeded but no stop has happened, the * migration is considered to be "dangling". * * If a successful migrate_to and stop have happened on the source node, we * still need to check for a partial migration, due to scenarios (easier to * produce with batch-limit=1) like: * * - A resource is migrating from node1 to node2, and a migrate_to is * initiated for it on node1. * * - node2 goes into standby mode while the migrate_to is pending, which * aborts the transition. * * - Upon completion of the migrate_to, a new transition schedules a stop * on both nodes and a start on node1. * * - If the new transition is aborted for any reason while the resource is * stopping on node1, the transition after that stop completes will see * the migrate_to and stop on the source, but it's still a partial * migration, and the resource must be stopped on node2 because it is * potentially active there due to the migrate_to. * * We also need to take into account that either node's history may be * cleared at any point in the migration process. */ int from_rc = PCMK_OCF_OK; int from_status = PCMK_EXEC_PENDING; pcmk_node_t *target_node = NULL; xmlNode *migrate_from = NULL; const char *source = NULL; const char *target = NULL; bool source_newer_op = false; bool target_newer_state = false; bool active_on_target = false; pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; // Get source and target node names from XML if (get_migration_node_names(history->xml, history->node, NULL, &source, &target) != pcmk_rc_ok) { return; } // Check for newer state on the source source_newer_op = non_monitor_after(history->rsc->id, source, history->xml, scheduler); // Check for a migrate_from action from this source on the target migrate_from = find_lrm_op(history->rsc->id, PCMK_ACTION_MIGRATE_FROM, target, source, -1, scheduler); if (migrate_from != NULL) { if (source_newer_op) { /* There's a newer non-monitor operation on the source and a * migrate_from on the target, so this migrate_to is irrelevant to * the resource's state. */ return; } crm_element_value_int(migrate_from, PCMK__XA_RC_CODE, &from_rc); crm_element_value_int(migrate_from, PCMK__XA_OP_STATUS, &from_status); } /* If the resource has newer state on both the source and target after the * migration events, this migrate_to is irrelevant to the resource's state. */ target_newer_state = newer_state_after_migrate(history->rsc->id, target, history->xml, migrate_from, scheduler); if (source_newer_op && target_newer_state) { return; } /* Check for dangling migration (migrate_from succeeded but stop not done). * We know there's no stop because we already returned if the target has a * migrate_from and the source has any newer non-monitor operation. */ if ((from_rc == PCMK_OCF_OK) && (from_status == PCMK_EXEC_DONE)) { add_dangling_migration(history->rsc, history->node); return; } /* Without newer state, this migrate_to implies the resource is active. * (Clones are not allowed to migrate, so role can't be promoted.) */ history->rsc->priv->orig_role = pcmk_role_started; target_node = pcmk_find_node(scheduler, target); active_on_target = !target_newer_state && (target_node != NULL) && target_node->details->online; if (from_status != PCMK_EXEC_PENDING) { // migrate_from failed on target if (active_on_target) { native_add_running(history->rsc, target_node, scheduler, TRUE); } else { // Mark resource as failed, require recovery, and prevent migration pcmk__set_rsc_flags(history->rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); pcmk__clear_rsc_flags(history->rsc, pcmk__rsc_migratable); } return; } // The migrate_from is pending, complete but erased, or to be scheduled /* If there is no history at all for the resource on an online target, then * it was likely cleaned. Just return, and we'll schedule a probe. Once we * have the probe result, it will be reflected in target_newer_state. */ if ((target_node != NULL) && target_node->details->online && unknown_on_node(history->rsc, target)) { return; } if (active_on_target) { pcmk_node_t *source_node = pcmk_find_node(scheduler, source); native_add_running(history->rsc, target_node, scheduler, FALSE); if ((source_node != NULL) && source_node->details->online) { /* This is a partial migration: the migrate_to completed * successfully on the source, but the migrate_from has not * completed. Remember the source and target; if the newly * chosen target remains the same when we schedule actions * later, we may continue with the migration. */ history->rsc->priv->partial_migration_target = target_node; history->rsc->priv->partial_migration_source = source_node; } } else if (!source_newer_op) { // Mark resource as failed, require recovery, and prevent migration pcmk__set_rsc_flags(history->rsc, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); pcmk__clear_rsc_flags(history->rsc, pcmk__rsc_migratable); } } /*! * \internal * \brief Update resource role etc. after a failed migrate_to action * * \param[in,out] history Parsed action result history */ static void unpack_migrate_to_failure(struct action_history *history) { xmlNode *target_migrate_from = NULL; const char *source = NULL; const char *target = NULL; pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; // Get source and target node names from XML if (get_migration_node_names(history->xml, history->node, NULL, &source, &target) != pcmk_rc_ok) { return; } /* If a migration failed, we have to assume the resource is active. Clones * are not allowed to migrate, so role can't be promoted. */ history->rsc->priv->orig_role = pcmk_role_started; // Check for migrate_from on the target target_migrate_from = find_lrm_op(history->rsc->id, PCMK_ACTION_MIGRATE_FROM, target, source, PCMK_OCF_OK, scheduler); if (/* If the resource state is unknown on the target, it will likely be * probed there. * Don't just consider it running there. We will get back here anyway in * case the probe detects it's running there. */ !unknown_on_node(history->rsc, target) /* If the resource has newer state on the target after the migration * events, this migrate_to no longer matters for the target. */ && !newer_state_after_migrate(history->rsc->id, target, history->xml, target_migrate_from, scheduler)) { /* The resource has no newer state on the target, so assume it's still * active there. * (if it is up). */ pcmk_node_t *target_node = pcmk_find_node(scheduler, target); if (target_node && target_node->details->online) { native_add_running(history->rsc, target_node, scheduler, FALSE); } } else if (!non_monitor_after(history->rsc->id, source, history->xml, scheduler)) { /* We know the resource has newer state on the target, but this * migrate_to still matters for the source as long as there's no newer * non-monitor operation there. */ // Mark node as having dangling migration so we can force a stop later history->rsc->priv->dangling_migration_sources = g_list_prepend(history->rsc->priv->dangling_migration_sources, (gpointer) history->node); } } /*! * \internal * \brief Update resource role etc. after a failed migrate_from action * * \param[in,out] history Parsed action result history */ static void unpack_migrate_from_failure(struct action_history *history) { xmlNode *source_migrate_to = NULL; const char *source = NULL; const char *target = NULL; pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; // Get source and target node names from XML if (get_migration_node_names(history->xml, NULL, history->node, &source, &target) != pcmk_rc_ok) { return; } /* If a migration failed, we have to assume the resource is active. Clones * are not allowed to migrate, so role can't be promoted. */ history->rsc->priv->orig_role = pcmk_role_started; // Check for a migrate_to on the source source_migrate_to = find_lrm_op(history->rsc->id, PCMK_ACTION_MIGRATE_TO, source, target, PCMK_OCF_OK, scheduler); if (/* If the resource state is unknown on the source, it will likely be * probed there. * Don't just consider it running there. We will get back here anyway in * case the probe detects it's running there. */ !unknown_on_node(history->rsc, source) /* If the resource has newer state on the source after the migration * events, this migrate_from no longer matters for the source. */ && !newer_state_after_migrate(history->rsc->id, source, source_migrate_to, history->xml, scheduler)) { /* The resource has no newer state on the source, so assume it's still * active there (if it is up). */ pcmk_node_t *source_node = pcmk_find_node(scheduler, source); if (source_node && source_node->details->online) { native_add_running(history->rsc, source_node, scheduler, TRUE); } } } /*! * \internal * \brief Add an action to cluster's list of failed actions * * \param[in,out] history Parsed action result history */ static void record_failed_op(struct action_history *history) { const pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; if (!(history->node->details->online)) { return; } for (const xmlNode *xIter = scheduler->priv->failed->children; xIter != NULL; xIter = xIter->next) { const char *key = pcmk__xe_history_key(xIter); const char *uname = crm_element_value(xIter, PCMK_XA_UNAME); if (pcmk__str_eq(history->key, key, pcmk__str_none) && pcmk__str_eq(uname, history->node->priv->name, pcmk__str_casei)) { crm_trace("Skipping duplicate entry %s on %s", history->key, pcmk__node_name(history->node)); return; } } crm_trace("Adding entry for %s on %s to failed action list", history->key, pcmk__node_name(history->node)); crm_xml_add(history->xml, PCMK_XA_UNAME, history->node->priv->name); crm_xml_add(history->xml, PCMK__XA_RSC_ID, history->rsc->id); pcmk__xml_copy(scheduler->priv->failed, history->xml); } static char * last_change_str(const xmlNode *xml_op) { time_t when; char *result = NULL; if (crm_element_value_epoch(xml_op, PCMK_XA_LAST_RC_CHANGE, &when) == pcmk_ok) { char *when_s = pcmk__epoch2str(&when, 0); const char *p = strchr(when_s, ' '); // Skip day of week to make message shorter if ((p != NULL) && (*(++p) != '\0')) { result = pcmk__str_copy(p); } free(when_s); } if (result == NULL) { result = pcmk__str_copy("unknown_time"); } return result; } /*! * \internal * \brief Ban a resource (or its clone if an anonymous instance) from all nodes * * \param[in,out] rsc Resource to ban */ static void ban_from_all_nodes(pcmk_resource_t *rsc) { int score = -PCMK_SCORE_INFINITY; const pcmk_scheduler_t *scheduler = rsc->priv->scheduler; if (rsc->priv->parent != NULL) { pcmk_resource_t *parent = uber_parent(rsc); if (pcmk__is_anonymous_clone(parent)) { /* For anonymous clones, if an operation with * PCMK_META_ON_FAIL=PCMK_VALUE_STOP fails for any instance, the * entire clone must stop. */ rsc = parent; } } // Ban the resource from all nodes crm_notice("%s will not be started under current conditions", rsc->id); if (rsc->priv->allowed_nodes != NULL) { g_hash_table_destroy(rsc->priv->allowed_nodes); } rsc->priv->allowed_nodes = pe__node_list2table(scheduler->nodes); g_hash_table_foreach(rsc->priv->allowed_nodes, set_node_score, &score); } /*! * \internal * \brief Get configured failure handling and role after failure for an action * * \param[in,out] history Unpacked action history entry * \param[out] on_fail Where to set configured failure handling * \param[out] fail_role Where to set to role after failure */ static void unpack_failure_handling(struct action_history *history, enum pcmk__on_fail *on_fail, enum rsc_role_e *fail_role) { xmlNode *config = pcmk__find_action_config(history->rsc, history->task, history->interval_ms, true); GHashTable *meta = pcmk__unpack_action_meta(history->rsc, history->node, history->task, history->interval_ms, config); const char *on_fail_str = g_hash_table_lookup(meta, PCMK_META_ON_FAIL); *on_fail = pcmk__parse_on_fail(history->rsc, history->task, history->interval_ms, on_fail_str); *fail_role = pcmk__role_after_failure(history->rsc, history->task, *on_fail, meta); g_hash_table_destroy(meta); } /*! * \internal * \brief Update resource role, failure handling, etc., after a failed action * * \param[in,out] history Parsed action result history * \param[in] config_on_fail Action failure handling from configuration * \param[in] fail_role Resource's role after failure of this action * \param[out] last_failure This will be set to the history XML * \param[in,out] on_fail Actual handling of action result */ static void unpack_rsc_op_failure(struct action_history *history, enum pcmk__on_fail config_on_fail, enum rsc_role_e fail_role, xmlNode **last_failure, enum pcmk__on_fail *on_fail) { bool is_probe = false; char *last_change_s = NULL; pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; *last_failure = history->xml; is_probe = pcmk_xe_is_probe(history->xml); last_change_s = last_change_str(history->xml); if (!pcmk_is_set(scheduler->flags, pcmk__sched_symmetric_cluster) && (history->exit_status == PCMK_OCF_NOT_INSTALLED)) { crm_trace("Unexpected result (%s%s%s) was recorded for " "%s of %s on %s at %s " QB_XS " exit-status=%d id=%s", services_ocf_exitcode_str(history->exit_status), (pcmk__str_empty(history->exit_reason)? "" : ": "), pcmk__s(history->exit_reason, ""), (is_probe? "probe" : history->task), history->rsc->id, pcmk__node_name(history->node), last_change_s, history->exit_status, history->id); } else { pcmk__sched_warn(scheduler, "Unexpected result (%s%s%s) was recorded for %s of " "%s on %s at %s " QB_XS " exit-status=%d id=%s", services_ocf_exitcode_str(history->exit_status), (pcmk__str_empty(history->exit_reason)? "" : ": "), pcmk__s(history->exit_reason, ""), (is_probe? "probe" : history->task), history->rsc->id, pcmk__node_name(history->node), last_change_s, history->exit_status, history->id); if (is_probe && (history->exit_status != PCMK_OCF_OK) && (history->exit_status != PCMK_OCF_NOT_RUNNING) && (history->exit_status != PCMK_OCF_RUNNING_PROMOTED)) { /* A failed (not just unexpected) probe result could mean the user * didn't know resources will be probed even where they can't run. */ crm_notice("If it is not possible for %s to run on %s, see " "the " PCMK_XA_RESOURCE_DISCOVERY " option for location " "constraints", history->rsc->id, pcmk__node_name(history->node)); } record_failed_op(history); } free(last_change_s); if (*on_fail < config_on_fail) { pcmk__rsc_trace(history->rsc, "on-fail %s -> %s for %s", pcmk__on_fail_text(*on_fail), pcmk__on_fail_text(config_on_fail), history->key); *on_fail = config_on_fail; } if (strcmp(history->task, PCMK_ACTION_STOP) == 0) { resource_location(history->rsc, history->node, -PCMK_SCORE_INFINITY, "__stop_fail__", scheduler); } else if (strcmp(history->task, PCMK_ACTION_MIGRATE_TO) == 0) { unpack_migrate_to_failure(history); } else if (strcmp(history->task, PCMK_ACTION_MIGRATE_FROM) == 0) { unpack_migrate_from_failure(history); } else if (strcmp(history->task, PCMK_ACTION_PROMOTE) == 0) { history->rsc->priv->orig_role = pcmk_role_promoted; } else if (strcmp(history->task, PCMK_ACTION_DEMOTE) == 0) { if (config_on_fail == pcmk__on_fail_block) { history->rsc->priv->orig_role = pcmk_role_promoted; pe__set_next_role(history->rsc, pcmk_role_stopped, "demote with " PCMK_META_ON_FAIL "=block"); } else if (history->exit_status == PCMK_OCF_NOT_RUNNING) { history->rsc->priv->orig_role = pcmk_role_stopped; } else { /* Staying in the promoted role would put the scheduler and * controller into a loop. Setting the role to unpromoted is not * dangerous because the resource will be stopped as part of * recovery, and any promotion will be ordered after that stop. */ history->rsc->priv->orig_role = pcmk_role_unpromoted; } } if (is_probe && (history->exit_status == PCMK_OCF_NOT_INSTALLED)) { /* leave stopped */ pcmk__rsc_trace(history->rsc, "Leaving %s stopped", history->rsc->id); history->rsc->priv->orig_role = pcmk_role_stopped; } else if (history->rsc->priv->orig_role < pcmk_role_started) { pcmk__rsc_trace(history->rsc, "Setting %s active", history->rsc->id); set_active(history->rsc); } pcmk__rsc_trace(history->rsc, "Resource %s: role=%s unclean=%s on_fail=%s fail_role=%s", history->rsc->id, pcmk_role_text(history->rsc->priv->orig_role), pcmk__btoa(history->node->details->unclean), pcmk__on_fail_text(config_on_fail), pcmk_role_text(fail_role)); if ((fail_role != pcmk_role_started) && (history->rsc->priv->next_role < fail_role)) { pe__set_next_role(history->rsc, fail_role, "failure"); } if (fail_role == pcmk_role_stopped) { ban_from_all_nodes(history->rsc); } } /*! * \internal * \brief Block a resource with a failed action if it cannot be recovered * * If resource action is a failed stop and fencing is not possible, mark the * resource as unmanaged and blocked, since recovery cannot be done. * * \param[in,out] history Parsed action history entry */ static void block_if_unrecoverable(struct action_history *history) { char *last_change_s = NULL; if (strcmp(history->task, PCMK_ACTION_STOP) != 0) { return; // All actions besides stop are always recoverable } if (pe_can_fence(history->node->priv->scheduler, history->node)) { return; // Failed stops are recoverable via fencing } last_change_s = last_change_str(history->xml); pcmk__sched_err(history->node->priv->scheduler, "No further recovery can be attempted for %s " "because %s on %s failed (%s%s%s) at %s " QB_XS " rc=%d id=%s", history->rsc->id, history->task, pcmk__node_name(history->node), services_ocf_exitcode_str(history->exit_status), (pcmk__str_empty(history->exit_reason)? "" : ": "), pcmk__s(history->exit_reason, ""), last_change_s, history->exit_status, history->id); free(last_change_s); pcmk__clear_rsc_flags(history->rsc, pcmk__rsc_managed); pcmk__set_rsc_flags(history->rsc, pcmk__rsc_blocked); } /*! * \internal * \brief Update action history's execution status and why * * \param[in,out] history Parsed action history entry * \param[out] why Where to store reason for update * \param[in] value New value * \param[in] reason Description of why value was changed */ static inline void remap_because(struct action_history *history, const char **why, int value, const char *reason) { if (history->execution_status != value) { history->execution_status = value; *why = reason; } } /*! * \internal * \brief Remap informational monitor results and operation status * * For the monitor results, certain OCF codes are for providing extended information * to the user about services that aren't yet failed but not entirely healthy either. * These must be treated as the "normal" result by Pacemaker. * * For operation status, the action result can be used to determine an appropriate * status for the purposes of responding to the action. The status provided by the * executor is not directly usable since the executor does not know what was expected. * * \param[in,out] history Parsed action history entry * \param[in,out] on_fail What should be done about the result * \param[in] expired Whether result is expired * * \note If the result is remapped and the node is not shutting down or failed, * the operation will be recorded in the scheduler data's list of failed * operations to highlight it for the user. * * \note This may update the resource's current and next role. */ static void remap_operation(struct action_history *history, enum pcmk__on_fail *on_fail, bool expired) { bool is_probe = false; int orig_exit_status = history->exit_status; int orig_exec_status = history->execution_status; const char *why = NULL; const char *task = history->task; // Remap degraded results to their successful counterparts history->exit_status = pcmk__effective_rc(history->exit_status); if (history->exit_status != orig_exit_status) { why = "degraded result"; if (!expired && (!history->node->details->shutdown || history->node->details->online)) { record_failed_op(history); } } if (!pcmk__is_bundled(history->rsc) && pcmk_xe_mask_probe_failure(history->xml) && ((history->execution_status != PCMK_EXEC_DONE) || (history->exit_status != PCMK_OCF_NOT_RUNNING))) { history->execution_status = PCMK_EXEC_DONE; history->exit_status = PCMK_OCF_NOT_RUNNING; why = "equivalent probe result"; } /* If the executor reported an execution status of anything but done or * error, consider that final. But for done or error, we know better whether * it should be treated as a failure or not, because we know the expected * result. */ switch (history->execution_status) { case PCMK_EXEC_DONE: case PCMK_EXEC_ERROR: break; // These should be treated as node-fatal case PCMK_EXEC_NO_FENCE_DEVICE: case PCMK_EXEC_NO_SECRETS: remap_because(history, &why, PCMK_EXEC_ERROR_HARD, "node-fatal error"); goto remap_done; default: goto remap_done; } is_probe = pcmk_xe_is_probe(history->xml); if (is_probe) { task = "probe"; } if (history->expected_exit_status < 0) { /* Pre-1.0 Pacemaker versions, and Pacemaker 1.1.6 or earlier with * Heartbeat 2.0.7 or earlier as the cluster layer, did not include the * expected exit status in the transition key, which (along with the * similar case of a corrupted transition key in the CIB) will be * reported to this function as -1. Pacemaker 2.0+ does not support * rolling upgrades from those versions or processing of saved CIB files * from those versions, so we do not need to care much about this case. */ remap_because(history, &why, PCMK_EXEC_ERROR, "obsolete history format"); pcmk__config_warn("Expected result not found for %s on %s " "(corrupt or obsolete CIB?)", history->key, pcmk__node_name(history->node)); } else if (history->exit_status == history->expected_exit_status) { remap_because(history, &why, PCMK_EXEC_DONE, "expected result"); } else { remap_because(history, &why, PCMK_EXEC_ERROR, "unexpected result"); pcmk__rsc_debug(history->rsc, "%s on %s: expected %d (%s), got %d (%s%s%s)", history->key, pcmk__node_name(history->node), history->expected_exit_status, services_ocf_exitcode_str(history->expected_exit_status), history->exit_status, services_ocf_exitcode_str(history->exit_status), (pcmk__str_empty(history->exit_reason)? "" : ": "), pcmk__s(history->exit_reason, "")); } switch (history->exit_status) { case PCMK_OCF_OK: if (is_probe && (history->expected_exit_status == PCMK_OCF_NOT_RUNNING)) { char *last_change_s = last_change_str(history->xml); remap_because(history, &why, PCMK_EXEC_DONE, "probe"); pcmk__rsc_info(history->rsc, "Probe found %s active on %s at %s", history->rsc->id, pcmk__node_name(history->node), last_change_s); free(last_change_s); } break; case PCMK_OCF_NOT_RUNNING: if (is_probe || (history->expected_exit_status == history->exit_status) || !pcmk_is_set(history->rsc->flags, pcmk__rsc_managed)) { /* For probes, recurring monitors for the Stopped role, and * unmanaged resources, "not running" is not considered a * failure. */ remap_because(history, &why, PCMK_EXEC_DONE, "exit status"); history->rsc->priv->orig_role = pcmk_role_stopped; *on_fail = pcmk__on_fail_ignore; pe__set_next_role(history->rsc, pcmk_role_unknown, "not running"); } break; case PCMK_OCF_RUNNING_PROMOTED: if (is_probe && (history->exit_status != history->expected_exit_status)) { char *last_change_s = last_change_str(history->xml); remap_because(history, &why, PCMK_EXEC_DONE, "probe"); pcmk__rsc_info(history->rsc, "Probe found %s active and promoted on %s at %s", history->rsc->id, pcmk__node_name(history->node), last_change_s); free(last_change_s); } if (!expired || (history->exit_status == history->expected_exit_status)) { history->rsc->priv->orig_role = pcmk_role_promoted; } break; case PCMK_OCF_FAILED_PROMOTED: if (!expired) { history->rsc->priv->orig_role = pcmk_role_promoted; } remap_because(history, &why, PCMK_EXEC_ERROR, "exit status"); break; case PCMK_OCF_NOT_CONFIGURED: remap_because(history, &why, PCMK_EXEC_ERROR_FATAL, "exit status"); break; case PCMK_OCF_UNIMPLEMENT_FEATURE: { guint interval_ms = 0; crm_element_value_ms(history->xml, PCMK_META_INTERVAL, &interval_ms); if (interval_ms == 0) { if (!expired) { block_if_unrecoverable(history); } remap_because(history, &why, PCMK_EXEC_ERROR_HARD, "exit status"); } else { remap_because(history, &why, PCMK_EXEC_NOT_SUPPORTED, "exit status"); } } break; case PCMK_OCF_NOT_INSTALLED: case PCMK_OCF_INVALID_PARAM: case PCMK_OCF_INSUFFICIENT_PRIV: if (!expired) { block_if_unrecoverable(history); } remap_because(history, &why, PCMK_EXEC_ERROR_HARD, "exit status"); break; default: if (history->execution_status == PCMK_EXEC_DONE) { char *last_change_s = last_change_str(history->xml); crm_info("Treating unknown exit status %d from %s of %s " "on %s at %s as failure", history->exit_status, task, history->rsc->id, pcmk__node_name(history->node), last_change_s); remap_because(history, &why, PCMK_EXEC_ERROR, "unknown exit status"); free(last_change_s); } break; } remap_done: if (why != NULL) { pcmk__rsc_trace(history->rsc, "Remapped %s result from [%s: %s] to [%s: %s] " "because of %s", history->key, pcmk_exec_status_str(orig_exec_status), crm_exit_str(orig_exit_status), pcmk_exec_status_str(history->execution_status), crm_exit_str(history->exit_status), why); } } // return TRUE if start or monitor last failure but parameters changed static bool should_clear_for_param_change(const xmlNode *xml_op, const char *task, pcmk_resource_t *rsc, pcmk_node_t *node) { if (pcmk__str_any_of(task, PCMK_ACTION_START, PCMK_ACTION_MONITOR, NULL)) { if (pe__bundle_needs_remote_name(rsc)) { /* We haven't allocated resources yet, so we can't reliably * substitute addr parameters for the REMOTE_CONTAINER_HACK. * When that's needed, defer the check until later. */ pe__add_param_check(xml_op, rsc, node, pcmk__check_last_failure, rsc->priv->scheduler); } else { pcmk__op_digest_t *digest_data = NULL; digest_data = rsc_action_digest_cmp(rsc, xml_op, node, rsc->priv->scheduler); switch (digest_data->rc) { case pcmk__digest_unknown: crm_trace("Resource %s history entry %s on %s" " has no digest to compare", rsc->id, pcmk__xe_history_key(xml_op), node->priv->id); break; case pcmk__digest_match: break; default: return TRUE; } } } return FALSE; } // Order action after fencing of remote node, given connection rsc static void order_after_remote_fencing(pcmk_action_t *action, pcmk_resource_t *remote_conn, pcmk_scheduler_t *scheduler) { pcmk_node_t *remote_node = pcmk_find_node(scheduler, remote_conn->id); if (remote_node) { pcmk_action_t *fence = pe_fence_op(remote_node, NULL, TRUE, NULL, FALSE, scheduler); order_actions(fence, action, pcmk__ar_first_implies_then); } } static bool should_ignore_failure_timeout(const pcmk_resource_t *rsc, const char *task, guint interval_ms, bool is_last_failure) { /* Clearing failures of recurring monitors has special concerns. The * executor reports only changes in the monitor result, so if the * monitor is still active and still getting the same failure result, * that will go undetected after the failure is cleared. * * Also, the operation history will have the time when the recurring * monitor result changed to the given code, not the time when the * result last happened. * * @TODO We probably should clear such failures only when the failure * timeout has passed since the last occurrence of the failed result. * However we don't record that information. We could maybe approximate * that by clearing only if there is a more recent successful monitor or * stop result, but we don't even have that information at this point * since we are still unpacking the resource's operation history. * * This is especially important for remote connection resources with a * reconnect interval, so in that case, we skip clearing failures * if the remote node hasn't been fenced. */ if ((rsc->priv->remote_reconnect_ms > 0U) && pcmk_is_set(rsc->priv->scheduler->flags, pcmk__sched_fencing_enabled) && (interval_ms != 0) && pcmk__str_eq(task, PCMK_ACTION_MONITOR, pcmk__str_casei)) { pcmk_node_t *remote_node = pcmk_find_node(rsc->priv->scheduler, rsc->id); if (remote_node && !pcmk_is_set(remote_node->priv->flags, pcmk__node_remote_fenced)) { if (is_last_failure) { crm_info("Waiting to clear monitor failure for remote node %s" " until fencing has occurred", rsc->id); } return TRUE; } } return FALSE; } /*! * \internal * \brief Check operation age and schedule failure clearing when appropriate * * This function has two distinct purposes. The first is to check whether an * operation history entry is expired (i.e. the resource has a failure timeout, * the entry is older than the timeout, and the resource either has no fail * count or its fail count is entirely older than the timeout). The second is to * schedule fail count clearing when appropriate (i.e. the operation is expired * and either the resource has an expired fail count or the operation is a * last_failure for a remote connection resource with a reconnect interval, * or the operation is a last_failure for a start or monitor operation and the * resource's parameters have changed since the operation). * * \param[in,out] history Parsed action result history * * \return true if operation history entry is expired, otherwise false */ static bool check_operation_expiry(struct action_history *history) { bool expired = false; bool is_last_failure = pcmk__ends_with(history->id, "_last_failure_0"); time_t last_run = 0; int unexpired_fail_count = 0; const char *clear_reason = NULL; const guint expiration_sec = history->rsc->priv->failure_expiration_ms / 1000; pcmk_scheduler_t *scheduler = history->rsc->priv->scheduler; if (history->execution_status == PCMK_EXEC_NOT_INSTALLED) { pcmk__rsc_trace(history->rsc, "Resource history entry %s on %s is not expired: " "Not Installed does not expire", history->id, pcmk__node_name(history->node)); return false; // "Not installed" must always be cleared manually } if ((expiration_sec > 0) && (crm_element_value_epoch(history->xml, PCMK_XA_LAST_RC_CHANGE, &last_run) == 0)) { /* Resource has a PCMK_META_FAILURE_TIMEOUT and history entry has a * timestamp */ time_t now = get_effective_time(scheduler); time_t last_failure = 0; // Is this particular operation history older than the failure timeout? if ((now >= (last_run + expiration_sec)) && !should_ignore_failure_timeout(history->rsc, history->task, history->interval_ms, is_last_failure)) { expired = true; } // Does the resource as a whole have an unexpired fail count? unexpired_fail_count = pe_get_failcount(history->node, history->rsc, &last_failure, pcmk__fc_effective, history->xml); // Update scheduler recheck time according to *last* failure crm_trace("%s@%lld is %sexpired @%lld with unexpired_failures=%d " "expiration=%s last-failure@%lld", history->id, (long long) last_run, (expired? "" : "not "), (long long) now, unexpired_fail_count, pcmk__readable_interval(expiration_sec * 1000), (long long) last_failure); last_failure += expiration_sec + 1; if (unexpired_fail_count && (now < last_failure)) { pe__update_recheck_time(last_failure, scheduler, "fail count expiration"); } } if (expired) { if (pe_get_failcount(history->node, history->rsc, NULL, pcmk__fc_default, history->xml)) { // There is a fail count ignoring timeout if (unexpired_fail_count == 0) { // There is no fail count considering timeout clear_reason = "it expired"; } else { /* This operation is old, but there is an unexpired fail count. * In a properly functioning cluster, this should only be * possible if this operation is not a failure (otherwise the * fail count should be expired too), so this is really just a * failsafe. */ pcmk__rsc_trace(history->rsc, "Resource history entry %s on %s is not " "expired: Unexpired fail count", history->id, pcmk__node_name(history->node)); expired = false; } } else if (is_last_failure && (history->rsc->priv->remote_reconnect_ms > 0U)) { /* Clear any expired last failure when reconnect interval is set, * even if there is no fail count. */ clear_reason = "reconnect interval is set"; } } if (!expired && is_last_failure && should_clear_for_param_change(history->xml, history->task, history->rsc, history->node)) { clear_reason = "resource parameters have changed"; } if (clear_reason != NULL) { pcmk_action_t *clear_op = NULL; // Schedule clearing of the fail count clear_op = pe__clear_failcount(history->rsc, history->node, clear_reason, scheduler); if (pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled) && (history->rsc->priv->remote_reconnect_ms > 0)) { /* If we're clearing a remote connection due to a reconnect * interval, we want to wait until any scheduled fencing * completes. * * We could limit this to remote_node->details->unclean, but at * this point, that's always true (it won't be reliable until * after unpack_node_history() is done). */ crm_info("Clearing %s failure will wait until any scheduled " "fencing of %s completes", history->task, history->rsc->id); order_after_remote_fencing(clear_op, history->rsc, scheduler); } } if (expired && (history->interval_ms == 0) && pcmk__str_eq(history->task, PCMK_ACTION_MONITOR, pcmk__str_none)) { switch (history->exit_status) { case PCMK_OCF_OK: case PCMK_OCF_NOT_RUNNING: case PCMK_OCF_RUNNING_PROMOTED: case PCMK_OCF_DEGRADED: case PCMK_OCF_DEGRADED_PROMOTED: // Don't expire probes that return these values pcmk__rsc_trace(history->rsc, "Resource history entry %s on %s is not " "expired: Probe result", history->id, pcmk__node_name(history->node)); expired = false; break; } } return expired; } int pe__target_rc_from_xml(const xmlNode *xml_op) { int target_rc = 0; const char *key = crm_element_value(xml_op, PCMK__XA_TRANSITION_KEY); if (key == NULL) { return -1; } decode_transition_key(key, NULL, NULL, NULL, &target_rc); return target_rc; } /*! * \internal * \brief Update a resource's state for an action result * * \param[in,out] history Parsed action history entry * \param[in] exit_status Exit status to base new state on * \param[in] last_failure Resource's last_failure entry, if known * \param[in,out] on_fail Resource's current failure handling */ static void update_resource_state(struct action_history *history, int exit_status, const xmlNode *last_failure, enum pcmk__on_fail *on_fail) { bool clear_past_failure = false; if ((exit_status == PCMK_OCF_NOT_INSTALLED) || (!pcmk__is_bundled(history->rsc) && pcmk_xe_mask_probe_failure(history->xml))) { history->rsc->priv->orig_role = pcmk_role_stopped; } else if (exit_status == PCMK_OCF_NOT_RUNNING) { clear_past_failure = true; } else if (pcmk__str_eq(history->task, PCMK_ACTION_MONITOR, pcmk__str_none)) { if ((last_failure != NULL) && pcmk__str_eq(history->key, pcmk__xe_history_key(last_failure), pcmk__str_none)) { clear_past_failure = true; } if (history->rsc->priv->orig_role < pcmk_role_started) { set_active(history->rsc); } } else if (pcmk__str_eq(history->task, PCMK_ACTION_START, pcmk__str_none)) { history->rsc->priv->orig_role = pcmk_role_started; clear_past_failure = true; } else if (pcmk__str_eq(history->task, PCMK_ACTION_STOP, pcmk__str_none)) { history->rsc->priv->orig_role = pcmk_role_stopped; clear_past_failure = true; } else if (pcmk__str_eq(history->task, PCMK_ACTION_PROMOTE, pcmk__str_none)) { history->rsc->priv->orig_role = pcmk_role_promoted; clear_past_failure = true; } else if (pcmk__str_eq(history->task, PCMK_ACTION_DEMOTE, pcmk__str_none)) { if (*on_fail == pcmk__on_fail_demote) { /* Demote clears an error only if * PCMK_META_ON_FAIL=PCMK_VALUE_DEMOTE */ clear_past_failure = true; } history->rsc->priv->orig_role = pcmk_role_unpromoted; } else if (pcmk__str_eq(history->task, PCMK_ACTION_MIGRATE_FROM, pcmk__str_none)) { history->rsc->priv->orig_role = pcmk_role_started; clear_past_failure = true; } else if (pcmk__str_eq(history->task, PCMK_ACTION_MIGRATE_TO, pcmk__str_none)) { unpack_migrate_to_success(history); } else if (history->rsc->priv->orig_role < pcmk_role_started) { pcmk__rsc_trace(history->rsc, "%s active on %s", history->rsc->id, pcmk__node_name(history->node)); set_active(history->rsc); } if (!clear_past_failure) { return; } switch (*on_fail) { case pcmk__on_fail_stop: case pcmk__on_fail_ban: case pcmk__on_fail_standby_node: case pcmk__on_fail_fence_node: pcmk__rsc_trace(history->rsc, "%s (%s) is not cleared by a completed %s", history->rsc->id, pcmk__on_fail_text(*on_fail), history->task); break; case pcmk__on_fail_block: case pcmk__on_fail_ignore: case pcmk__on_fail_demote: case pcmk__on_fail_restart: case pcmk__on_fail_restart_container: *on_fail = pcmk__on_fail_ignore; pe__set_next_role(history->rsc, pcmk_role_unknown, "clear past failures"); break; case pcmk__on_fail_reset_remote: if (history->rsc->priv->remote_reconnect_ms == 0U) { /* With no reconnect interval, the connection is allowed to * start again after the remote node is fenced and * completely stopped. (With a reconnect interval, we wait * for the failure to be cleared entirely before attempting * to reconnect.) */ *on_fail = pcmk__on_fail_ignore; pe__set_next_role(history->rsc, pcmk_role_unknown, "clear past failures and reset remote"); } break; } } /*! * \internal * \brief Check whether a given history entry matters for resource state * * \param[in] history Parsed action history entry * * \return true if action can affect resource state, otherwise false */ static inline bool can_affect_state(struct action_history *history) { #if 0 /* @COMPAT It might be better to parse only actions we know we're interested * in, rather than exclude a couple we don't. However that would be a * behavioral change that should be done at a major or minor series release. * Currently, unknown operations can affect whether a resource is considered * active and/or failed. */ return pcmk__str_any_of(history->task, PCMK_ACTION_MONITOR, PCMK_ACTION_START, PCMK_ACTION_STOP, PCMK_ACTION_PROMOTE, PCMK_ACTION_DEMOTE, PCMK_ACTION_MIGRATE_TO, PCMK_ACTION_MIGRATE_FROM, "asyncmon", NULL); #else return !pcmk__str_any_of(history->task, PCMK_ACTION_NOTIFY, PCMK_ACTION_META_DATA, NULL); #endif } /*! * \internal * \brief Unpack execution/exit status and exit reason from a history entry * * \param[in,out] history Action history entry to unpack * * \return Standard Pacemaker return code */ static int unpack_action_result(struct action_history *history) { if ((crm_element_value_int(history->xml, PCMK__XA_OP_STATUS, &(history->execution_status)) < 0) || (history->execution_status < PCMK_EXEC_PENDING) || (history->execution_status > PCMK_EXEC_MAX) || (history->execution_status == PCMK_EXEC_CANCELLED)) { pcmk__config_err("Ignoring resource history entry %s for %s on %s " "with invalid " PCMK__XA_OP_STATUS " '%s'", history->id, history->rsc->id, pcmk__node_name(history->node), pcmk__s(crm_element_value(history->xml, PCMK__XA_OP_STATUS), "")); return pcmk_rc_unpack_error; } if ((crm_element_value_int(history->xml, PCMK__XA_RC_CODE, &(history->exit_status)) < 0) || (history->exit_status < 0) || (history->exit_status > CRM_EX_MAX)) { pcmk__config_err("Ignoring resource history entry %s for %s on %s " "with invalid " PCMK__XA_RC_CODE " '%s'", history->id, history->rsc->id, pcmk__node_name(history->node), pcmk__s(crm_element_value(history->xml, PCMK__XA_RC_CODE), "")); return pcmk_rc_unpack_error; } history->exit_reason = crm_element_value(history->xml, PCMK_XA_EXIT_REASON); return pcmk_rc_ok; } /*! * \internal * \brief Process an action history entry whose result expired * * \param[in,out] history Parsed action history entry * \param[in] orig_exit_status Action exit status before remapping * * \return Standard Pacemaker return code (in particular, pcmk_rc_ok means the * entry needs no further processing) */ static int process_expired_result(struct action_history *history, int orig_exit_status) { if (!pcmk__is_bundled(history->rsc) && pcmk_xe_mask_probe_failure(history->xml) && (orig_exit_status != history->expected_exit_status)) { if (history->rsc->priv->orig_role <= pcmk_role_stopped) { history->rsc->priv->orig_role = pcmk_role_unknown; } crm_trace("Ignoring resource history entry %s for probe of %s on %s: " "Masked failure expired", history->id, history->rsc->id, pcmk__node_name(history->node)); return pcmk_rc_ok; } if (history->exit_status == history->expected_exit_status) { return pcmk_rc_undetermined; // Only failures expire } if (history->interval_ms == 0) { crm_notice("Ignoring resource history entry %s for %s of %s on %s: " "Expired failure", history->id, history->task, history->rsc->id, pcmk__node_name(history->node)); return pcmk_rc_ok; } if (history->node->details->online && !history->node->details->unclean) { /* Reschedule the recurring action. schedule_cancel() won't work at * this stage, so as a hacky workaround, forcibly change the restart * digest so pcmk__check_action_config() does what we want later. * * @TODO We should skip this if there is a newer successful monitor. * Also, this causes rescheduling only if the history entry * has a PCMK__XA_OP_DIGEST (which the expire-non-blocked-failure * scheduler regression test doesn't, but that may not be a * realistic scenario in production). */ crm_notice("Rescheduling %s-interval %s of %s on %s " "after failure expired", pcmk__readable_interval(history->interval_ms), history->task, history->rsc->id, pcmk__node_name(history->node)); crm_xml_add(history->xml, PCMK__XA_OP_RESTART_DIGEST, "calculated-failure-timeout"); return pcmk_rc_ok; } return pcmk_rc_undetermined; } /*! * \internal * \brief Process a masked probe failure * * \param[in,out] history Parsed action history entry * \param[in] orig_exit_status Action exit status before remapping * \param[in] last_failure Resource's last_failure entry, if known * \param[in,out] on_fail Resource's current failure handling */ static void mask_probe_failure(struct action_history *history, int orig_exit_status, const xmlNode *last_failure, enum pcmk__on_fail *on_fail) { pcmk_resource_t *ban_rsc = history->rsc; if (!pcmk_is_set(history->rsc->flags, pcmk__rsc_unique)) { ban_rsc = uber_parent(history->rsc); } crm_notice("Treating probe result '%s' for %s on %s as 'not running'", services_ocf_exitcode_str(orig_exit_status), history->rsc->id, pcmk__node_name(history->node)); update_resource_state(history, history->expected_exit_status, last_failure, on_fail); crm_xml_add(history->xml, PCMK_XA_UNAME, history->node->priv->name); record_failed_op(history); resource_location(ban_rsc, history->node, -PCMK_SCORE_INFINITY, "masked-probe-failure", ban_rsc->priv->scheduler); } /*! * \internal Check whether a given failure is for a given pending action * * \param[in] history Parsed history entry for pending action * \param[in] last_failure Resource's last_failure entry, if known * * \return true if \p last_failure is failure of pending action in \p history, * otherwise false * \note Both \p history and \p last_failure must come from the same * \c PCMK__XE_LRM_RESOURCE block, as node and resource are assumed to be * the same. */ static bool failure_is_newer(const struct action_history *history, const xmlNode *last_failure) { guint failure_interval_ms = 0U; long long failure_change = 0LL; long long this_change = 0LL; if (last_failure == NULL) { return false; // Resource has no last_failure entry } if (!pcmk__str_eq(history->task, crm_element_value(last_failure, PCMK_XA_OPERATION), pcmk__str_none)) { return false; // last_failure is for different action } if ((crm_element_value_ms(last_failure, PCMK_META_INTERVAL, &failure_interval_ms) != pcmk_ok) || (history->interval_ms != failure_interval_ms)) { return false; // last_failure is for action with different interval } if ((pcmk__scan_ll(crm_element_value(history->xml, PCMK_XA_LAST_RC_CHANGE), &this_change, 0LL) != pcmk_rc_ok) || (pcmk__scan_ll(crm_element_value(last_failure, PCMK_XA_LAST_RC_CHANGE), &failure_change, 0LL) != pcmk_rc_ok) || (failure_change < this_change)) { return false; // Failure is not known to be newer } return true; } /*! * \internal * \brief Update a resource's role etc. for a pending action * * \param[in,out] history Parsed history entry for pending action * \param[in] last_failure Resource's last_failure entry, if known */ static void process_pending_action(struct action_history *history, const xmlNode *last_failure) { /* For recurring monitors, a failure is recorded only in RSC_last_failure_0, * and there might be a RSC_monitor_INTERVAL entry with the last successful * or pending result. * * If last_failure contains the failure of the pending recurring monitor * we're processing here, and is newer, the action is no longer pending. * (Pending results have call ID -1, which sorts last, so the last failure * if any should be known.) */ if (failure_is_newer(history, last_failure)) { return; } if (strcmp(history->task, PCMK_ACTION_START) == 0) { pcmk__set_rsc_flags(history->rsc, pcmk__rsc_start_pending); set_active(history->rsc); } else if (strcmp(history->task, PCMK_ACTION_PROMOTE) == 0) { history->rsc->priv->orig_role = pcmk_role_promoted; } else if ((strcmp(history->task, PCMK_ACTION_MIGRATE_TO) == 0) && history->node->details->unclean) { /* A migrate_to action is pending on a unclean source, so force a stop * on the target. */ const char *migrate_target = NULL; pcmk_node_t *target = NULL; migrate_target = crm_element_value(history->xml, PCMK__META_MIGRATE_TARGET); target = pcmk_find_node(history->rsc->priv->scheduler, migrate_target); if (target != NULL) { stop_action(history->rsc, target, FALSE); } } if (history->rsc->priv->pending_action != NULL) { /* There should never be multiple pending actions, but as a failsafe, * just remember the first one processed for display purposes. */ return; } if (pcmk_is_probe(history->task, history->interval_ms)) { /* Pending probes are currently never displayed, even if pending * operations are requested. If we ever want to change that, * enable the below and the corresponding part of * native.c:native_pending_action(). */ #if 0 history->rsc->private->pending_action = strdup("probe"); history->rsc->private->pending_node = history->node; #endif } else { history->rsc->priv->pending_action = strdup(history->task); history->rsc->priv->pending_node = history->node; } } static void unpack_rsc_op(pcmk_resource_t *rsc, pcmk_node_t *node, xmlNode *xml_op, xmlNode **last_failure, enum pcmk__on_fail *on_fail) { int old_rc = 0; bool expired = false; pcmk_resource_t *parent = rsc; enum rsc_role_e fail_role = pcmk_role_unknown; enum pcmk__on_fail failure_strategy = pcmk__on_fail_restart; struct action_history history = { .rsc = rsc, .node = node, .xml = xml_op, .execution_status = PCMK_EXEC_UNKNOWN, }; CRM_CHECK(rsc && node && xml_op, return); history.id = pcmk__xe_id(xml_op); if (history.id == NULL) { pcmk__config_err("Ignoring resource history entry for %s on %s " "without ID", rsc->id, pcmk__node_name(node)); return; } // Task and interval history.task = crm_element_value(xml_op, PCMK_XA_OPERATION); if (history.task == NULL) { pcmk__config_err("Ignoring resource history entry %s for %s on %s " "without " PCMK_XA_OPERATION, history.id, rsc->id, pcmk__node_name(node)); return; } crm_element_value_ms(xml_op, PCMK_META_INTERVAL, &(history.interval_ms)); if (!can_affect_state(&history)) { pcmk__rsc_trace(rsc, "Ignoring resource history entry %s for %s on %s " "with irrelevant action '%s'", history.id, rsc->id, pcmk__node_name(node), history.task); return; } if (unpack_action_result(&history) != pcmk_rc_ok) { return; // Error already logged } history.expected_exit_status = pe__target_rc_from_xml(xml_op); history.key = pcmk__xe_history_key(xml_op); crm_element_value_int(xml_op, PCMK__XA_CALL_ID, &(history.call_id)); pcmk__rsc_trace(rsc, "Unpacking %s (%s call %d on %s): %s (%s)", history.id, history.task, history.call_id, pcmk__node_name(node), pcmk_exec_status_str(history.execution_status), crm_exit_str(history.exit_status)); if (node->details->unclean) { pcmk__rsc_trace(rsc, "%s is running on %s, which is unclean (further action " "depends on value of stop's on-fail attribute)", rsc->id, pcmk__node_name(node)); } expired = check_operation_expiry(&history); old_rc = history.exit_status; remap_operation(&history, on_fail, expired); if (expired && (process_expired_result(&history, old_rc) == pcmk_rc_ok)) { goto done; } if (!pcmk__is_bundled(rsc) && pcmk_xe_mask_probe_failure(xml_op)) { mask_probe_failure(&history, old_rc, *last_failure, on_fail); goto done; } if (!pcmk_is_set(rsc->flags, pcmk__rsc_unique)) { parent = uber_parent(rsc); } switch (history.execution_status) { case PCMK_EXEC_PENDING: process_pending_action(&history, *last_failure); goto done; case PCMK_EXEC_DONE: update_resource_state(&history, history.exit_status, *last_failure, on_fail); goto done; case PCMK_EXEC_NOT_INSTALLED: unpack_failure_handling(&history, &failure_strategy, &fail_role); if (failure_strategy == pcmk__on_fail_ignore) { crm_warn("Cannot ignore failed %s of %s on %s: " "Resource agent doesn't exist " QB_XS " status=%d rc=%d id=%s", history.task, rsc->id, pcmk__node_name(node), history.execution_status, history.exit_status, history.id); /* Also for printing it as "FAILED" by marking it as * pcmk__rsc_failed later */ *on_fail = pcmk__on_fail_ban; } resource_location(parent, node, -PCMK_SCORE_INFINITY, "hard-error", rsc->priv->scheduler); unpack_rsc_op_failure(&history, failure_strategy, fail_role, last_failure, on_fail); goto done; case PCMK_EXEC_NOT_CONNECTED: if (pcmk__is_pacemaker_remote_node(node) && pcmk_is_set(node->priv->remote->flags, pcmk__rsc_managed)) { /* We should never get into a situation where a managed remote * connection resource is considered OK but a resource action * behind the connection gets a "not connected" status. But as a * fail-safe in case a bug or unusual circumstances do lead to * that, ensure the remote connection is considered failed. */ pcmk__set_rsc_flags(node->priv->remote, pcmk__rsc_failed|pcmk__rsc_stop_if_failed); } break; // Not done, do error handling case PCMK_EXEC_ERROR: case PCMK_EXEC_ERROR_HARD: case PCMK_EXEC_ERROR_FATAL: case PCMK_EXEC_TIMEOUT: case PCMK_EXEC_NOT_SUPPORTED: case PCMK_EXEC_INVALID: break; // Not done, do error handling default: // No other value should be possible at this point break; } unpack_failure_handling(&history, &failure_strategy, &fail_role); if ((failure_strategy == pcmk__on_fail_ignore) || ((failure_strategy == pcmk__on_fail_restart_container) && (strcmp(history.task, PCMK_ACTION_STOP) == 0))) { char *last_change_s = last_change_str(xml_op); crm_warn("Pretending failed %s (%s%s%s) of %s on %s at %s succeeded " QB_XS " %s", history.task, services_ocf_exitcode_str(history.exit_status), (pcmk__str_empty(history.exit_reason)? "" : ": "), pcmk__s(history.exit_reason, ""), rsc->id, pcmk__node_name(node), last_change_s, history.id); free(last_change_s); update_resource_state(&history, history.expected_exit_status, *last_failure, on_fail); crm_xml_add(xml_op, PCMK_XA_UNAME, node->priv->name); pcmk__set_rsc_flags(rsc, pcmk__rsc_ignore_failure); record_failed_op(&history); if ((failure_strategy == pcmk__on_fail_restart_container) && (*on_fail <= pcmk__on_fail_restart)) { *on_fail = failure_strategy; } } else { unpack_rsc_op_failure(&history, failure_strategy, fail_role, last_failure, on_fail); if (history.execution_status == PCMK_EXEC_ERROR_HARD) { uint8_t log_level = LOG_ERR; if (history.exit_status == PCMK_OCF_NOT_INSTALLED) { log_level = LOG_NOTICE; } do_crm_log(log_level, "Preventing %s from restarting on %s because " "of hard failure (%s%s%s) " QB_XS " %s", parent->id, pcmk__node_name(node), services_ocf_exitcode_str(history.exit_status), (pcmk__str_empty(history.exit_reason)? "" : ": "), pcmk__s(history.exit_reason, ""), history.id); resource_location(parent, node, -PCMK_SCORE_INFINITY, "hard-error", rsc->priv->scheduler); } else if (history.execution_status == PCMK_EXEC_ERROR_FATAL) { pcmk__sched_err(rsc->priv->scheduler, "Preventing %s from restarting anywhere because " "of fatal failure (%s%s%s) " QB_XS " %s", parent->id, services_ocf_exitcode_str(history.exit_status), (pcmk__str_empty(history.exit_reason)? "" : ": "), pcmk__s(history.exit_reason, ""), history.id); resource_location(parent, NULL, -PCMK_SCORE_INFINITY, "fatal-error", rsc->priv->scheduler); } } done: pcmk__rsc_trace(rsc, "%s role on %s after %s is %s (next %s)", rsc->id, pcmk__node_name(node), history.id, pcmk_role_text(rsc->priv->orig_role), pcmk_role_text(rsc->priv->next_role)); } /*! * \internal * \brief Insert a node attribute with value into a \c GHashTable * * \param[in,out] key Key to insert (either freed or owned by * \p user_data upon return) * \param[in] value Value to insert (owned by \p user_data upon return) * \param[in] user_data \c GHashTable to insert into */ static gboolean insert_attr(gpointer key, gpointer value, gpointer user_data) { GHashTable *table = user_data; g_hash_table_insert(table, key, value); return TRUE; } static void add_node_attrs(const xmlNode *xml_obj, pcmk_node_t *node, bool overwrite, pcmk_scheduler_t *scheduler) { const char *cluster_name = NULL; const char *dc_id = crm_element_value(scheduler->input, PCMK_XA_DC_UUID); pe_rule_eval_data_t rule_data = { .node_hash = NULL, .now = scheduler->priv->now, .match_data = NULL, .rsc_data = NULL, .op_data = NULL }; pcmk__insert_dup(node->priv->attrs, CRM_ATTR_UNAME, node->priv->name); pcmk__insert_dup(node->priv->attrs, CRM_ATTR_ID, node->priv->id); if ((scheduler->dc_node == NULL) && pcmk__str_eq(node->priv->id, dc_id, pcmk__str_casei)) { scheduler->dc_node = node; pcmk__insert_dup(node->priv->attrs, CRM_ATTR_IS_DC, PCMK_VALUE_TRUE); } else if (!pcmk__same_node(node, scheduler->dc_node)) { pcmk__insert_dup(node->priv->attrs, CRM_ATTR_IS_DC, PCMK_VALUE_FALSE); } cluster_name = g_hash_table_lookup(scheduler->priv->options, PCMK_OPT_CLUSTER_NAME); if (cluster_name) { pcmk__insert_dup(node->priv->attrs, CRM_ATTR_CLUSTER_NAME, cluster_name); } if (overwrite) { /* @TODO Try to reorder some unpacking so that we don't need the * overwrite argument or to unpack into a temporary table */ GHashTable *unpacked = pcmk__strkey_table(free, free); pe__unpack_dataset_nvpairs(xml_obj, PCMK_XE_INSTANCE_ATTRIBUTES, &rule_data, unpacked, NULL, scheduler); g_hash_table_foreach_steal(unpacked, insert_attr, node->priv->attrs); g_hash_table_destroy(unpacked); } else { pe__unpack_dataset_nvpairs(xml_obj, PCMK_XE_INSTANCE_ATTRIBUTES, &rule_data, node->priv->attrs, NULL, scheduler); } pe__unpack_dataset_nvpairs(xml_obj, PCMK_XE_UTILIZATION, &rule_data, node->priv->utilization, NULL, scheduler); if (pcmk__node_attr(node, CRM_ATTR_SITE_NAME, NULL, pcmk__rsc_node_current) == NULL) { const char *site_name = pcmk__node_attr(node, "site-name", NULL, pcmk__rsc_node_current); if (site_name) { pcmk__insert_dup(node->priv->attrs, CRM_ATTR_SITE_NAME, site_name); } else if (cluster_name) { /* Default to cluster-name if unset */ pcmk__insert_dup(node->priv->attrs, CRM_ATTR_SITE_NAME, cluster_name); } } } static GList * extract_operations(const char *node, const char *rsc, xmlNode * rsc_entry, gboolean active_filter) { int counter = -1; int stop_index = -1; int start_index = -1; xmlNode *rsc_op = NULL; GList *gIter = NULL; GList *op_list = NULL; GList *sorted_op_list = NULL; /* extract operations */ op_list = NULL; sorted_op_list = NULL; for (rsc_op = pcmk__xe_first_child(rsc_entry, NULL, NULL, NULL); rsc_op != NULL; rsc_op = pcmk__xe_next(rsc_op)) { if (pcmk__xe_is(rsc_op, PCMK__XE_LRM_RSC_OP)) { crm_xml_add(rsc_op, PCMK_XA_RESOURCE, rsc); crm_xml_add(rsc_op, PCMK_XA_UNAME, node); op_list = g_list_prepend(op_list, rsc_op); } } if (op_list == NULL) { /* if there are no operations, there is nothing to do */ return NULL; } sorted_op_list = g_list_sort(op_list, sort_op_by_callid); /* create active recurring operations as optional */ if (active_filter == FALSE) { return sorted_op_list; } op_list = NULL; calculate_active_ops(sorted_op_list, &start_index, &stop_index); for (gIter = sorted_op_list; gIter != NULL; gIter = gIter->next) { xmlNode *rsc_op = (xmlNode *) gIter->data; counter++; if (start_index < stop_index) { crm_trace("Skipping %s: not active", pcmk__xe_id(rsc_entry)); break; } else if (counter < start_index) { crm_trace("Skipping %s: old", pcmk__xe_id(rsc_op)); continue; } op_list = g_list_append(op_list, rsc_op); } g_list_free(sorted_op_list); return op_list; } GList * find_operations(const char *rsc, const char *node, gboolean active_filter, pcmk_scheduler_t *scheduler) { GList *output = NULL; GList *intermediate = NULL; xmlNode *tmp = NULL; xmlNode *status = pcmk__xe_first_child(scheduler->input, PCMK_XE_STATUS, NULL, NULL); pcmk_node_t *this_node = NULL; xmlNode *node_state = NULL; CRM_CHECK(status != NULL, return NULL); for (node_state = pcmk__xe_first_child(status, NULL, NULL, NULL); node_state != NULL; node_state = pcmk__xe_next(node_state)) { if (pcmk__xe_is(node_state, PCMK__XE_NODE_STATE)) { const char *uname = crm_element_value(node_state, PCMK_XA_UNAME); if (node != NULL && !pcmk__str_eq(uname, node, pcmk__str_casei)) { continue; } this_node = pcmk_find_node(scheduler, uname); if(this_node == NULL) { CRM_LOG_ASSERT(this_node != NULL); continue; } else if (pcmk__is_pacemaker_remote_node(this_node)) { determine_remote_online_status(scheduler, this_node); } else { determine_online_status(node_state, this_node, scheduler); } if (this_node->details->online || pcmk_is_set(scheduler->flags, pcmk__sched_fencing_enabled)) { /* offline nodes run no resources... * unless stonith is enabled in which case we need to * make sure rsc start events happen after the stonith */ xmlNode *lrm_rsc = NULL; tmp = pcmk__xe_first_child(node_state, PCMK__XE_LRM, NULL, NULL); tmp = pcmk__xe_first_child(tmp, PCMK__XE_LRM_RESOURCES, NULL, NULL); for (lrm_rsc = pcmk__xe_first_child(tmp, NULL, NULL, NULL); lrm_rsc != NULL; lrm_rsc = pcmk__xe_next(lrm_rsc)) { if (pcmk__xe_is(lrm_rsc, PCMK__XE_LRM_RESOURCE)) { const char *rsc_id = crm_element_value(lrm_rsc, PCMK_XA_ID); if (rsc != NULL && !pcmk__str_eq(rsc_id, rsc, pcmk__str_casei)) { continue; } intermediate = extract_operations(uname, rsc_id, lrm_rsc, active_filter); output = g_list_concat(output, intermediate); } } } } } return output; }