diff --git a/cib/cibio.h b/cib/cibio.h index cfa7c2dd55..dedd59f3fa 100644 --- a/cib/cibio.h +++ b/cib/cibio.h @@ -1,48 +1,48 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef CIB_IO__H # define CIB_IO__H # include # include # include # include # include # include # include # include extern gboolean initialized; extern xmlNode *the_cib; extern xmlNode *get_the_CIB(void); extern int initializeCib(xmlNode * cib); extern gboolean uninitializeCib(void); extern gboolean verifyCibXml(xmlNode * cib); extern xmlNode *readCibXml(char *buffer); extern xmlNode *readCibXmlFile(const char *dir, const char *file, gboolean discard_status); extern int activateCibBuffer(char *buffer, const char *filename); extern int activateCibXml(xmlNode * doc, gboolean to_disk, const char *op); extern crm_trigger_t *cib_writer; -extern gboolean cib_writes_enabled; +extern volatile gboolean cib_writes_enabled; #endif diff --git a/cib/main.c b/cib/main.c index 1e7fb00439..820692ecb3 100644 --- a/cib/main.c +++ b/cib/main.c @@ -1,590 +1,593 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "common.h" #if HAVE_LIBXML2 # include #endif #ifdef HAVE_GETOPT_H # include #endif #if HAVE_BZLIB_H # include #endif extern int init_remote_listener(int port, gboolean encrypted); gboolean cib_shutdown_flag = FALSE; int cib_status = pcmk_ok; crm_cluster_t crm_cluster; #if SUPPORT_HEARTBEAT oc_ev_t *cib_ev_token; ll_cluster_t *hb_conn = NULL; extern void oc_ev_special(const oc_ev_t *, oc_ev_class_t, int); gboolean cib_register_ha(ll_cluster_t * hb_cluster, const char *client_name); #else void *hb_conn = NULL; #endif GMainLoop *mainloop = NULL; const char *cib_root = NULL; char *cib_our_uname = NULL; gboolean preserve_status = FALSE; -gboolean cib_writes_enabled = TRUE; + +/* volatile because it may be changed in a signal handler */ +volatile gboolean cib_writes_enabled = TRUE; + int remote_fd = 0; int remote_tls_fd = 0; int cib_init(void); void cib_shutdown(int nsig); gboolean startCib(const char *filename); extern int write_cib_contents(gpointer p); GHashTable *config_hash = NULL; GHashTable *local_notify_queue = NULL; char *channel1 = NULL; char *channel2 = NULL; char *channel3 = NULL; char *channel4 = NULL; char *channel5 = NULL; #define OPTARGS "maswr:V?" void cib_cleanup(void); static void cib_enable_writes(int nsig) { crm_info("(Re)enabling disk writes"); cib_writes_enabled = TRUE; } static void log_cib_client(gpointer key, gpointer value, gpointer user_data) { crm_info("Client %s", crm_client_name(value)); } /* *INDENT-OFF* */ static struct crm_option long_options[] = { /* Top-level Options */ {"help", 0, 0, '?', "\tThis text"}, {"verbose", 0, 0, 'V', "\tIncrease debug output"}, {"per-action-cib", 0, 0, 'a', "\tAdvanced use only"}, {"stand-alone", 0, 0, 's', "\tAdvanced use only"}, {"disk-writes", 0, 0, 'w', "\tAdvanced use only"}, {"cib-root", 1, 0, 'r', "\tAdvanced use only"}, {0, 0, 0, 0} }; /* *INDENT-ON* */ int main(int argc, char **argv) { int flag; int rc = 0; int index = 0; int argerr = 0; struct passwd *pwentry = NULL; crm_log_preinit(NULL, argc, argv); crm_set_options(NULL, "[options]", long_options, "Daemon for storing and replicating the cluster configuration"); crm_peer_init(); mainloop_add_signal(SIGTERM, cib_shutdown); mainloop_add_signal(SIGPIPE, cib_enable_writes); cib_writer = mainloop_add_trigger(G_PRIORITY_LOW, write_cib_contents, NULL); while (1) { flag = crm_get_option(argc, argv, &index); if (flag == -1) break; switch (flag) { case 'V': crm_bump_log_level(argc, argv); break; case 's': stand_alone = TRUE; preserve_status = TRUE; cib_writes_enabled = FALSE; pwentry = getpwnam(CRM_DAEMON_USER); CRM_CHECK(pwentry != NULL, crm_perror(LOG_ERR, "Invalid uid (%s) specified", CRM_DAEMON_USER); return 100); rc = setgid(pwentry->pw_gid); if (rc < 0) { crm_perror(LOG_ERR, "Could not set group to %d", pwentry->pw_gid); return 100; } rc = initgroups(CRM_DAEMON_GROUP, pwentry->pw_gid); if (rc < 0) { crm_perror(LOG_ERR, "Could not setup groups for user %d", pwentry->pw_uid); return 100; } rc = setuid(pwentry->pw_uid); if (rc < 0) { crm_perror(LOG_ERR, "Could not set user to %d", pwentry->pw_uid); return 100; } break; case '?': /* Help message */ crm_help(flag, EX_OK); break; case 'w': cib_writes_enabled = TRUE; break; case 'r': cib_root = optarg; break; case 'm': cib_metadata(); return 0; default: ++argerr; break; } } if (argc - optind == 1 && safe_str_eq("metadata", argv[optind])) { cib_metadata(); return 0; } if (optind > argc) { ++argerr; } if (argerr) { crm_help('?', EX_USAGE); } crm_log_init(NULL, LOG_INFO, TRUE, FALSE, argc, argv, FALSE); if (cib_root == NULL) { char *path = crm_strdup_printf("%s/cib.xml", CRM_CONFIG_DIR); char *legacy = crm_strdup_printf("%s/cib.xml", CRM_LEGACY_CONFIG_DIR); if (g_file_test(path, G_FILE_TEST_EXISTS)) { cib_root = CRM_CONFIG_DIR; } else if (g_file_test(legacy, G_FILE_TEST_EXISTS)) { cib_root = CRM_LEGACY_CONFIG_DIR; crm_notice("Using legacy config location: %s", cib_root); } else { cib_root = CRM_CONFIG_DIR; crm_notice("Using new config location: %s", cib_root); } free(legacy); free(path); } else { crm_notice("Using custom config location: %s", cib_root); } if (crm_is_writable(cib_root, NULL, CRM_DAEMON_USER, CRM_DAEMON_GROUP, FALSE) == FALSE) { crm_err("Bad permissions on %s. Terminating", cib_root); fprintf(stderr, "ERROR: Bad permissions on %s. See logs for details\n", cib_root); fflush(stderr); return 100; } /* read local config file */ rc = cib_init(); CRM_CHECK(crm_hash_table_size(client_connections) == 0, crm_warn("Not all clients gone at exit")); g_hash_table_foreach(client_connections, log_cib_client, NULL); cib_cleanup(); #if SUPPORT_HEARTBEAT if (hb_conn) { hb_conn->llc_ops->delete(hb_conn); } #endif crm_info("Done"); return rc; } void cib_cleanup(void) { crm_peer_destroy(); if (local_notify_queue) { g_hash_table_destroy(local_notify_queue); } crm_client_cleanup(); g_hash_table_destroy(config_hash); free(cib_our_uname); free(channel1); free(channel2); free(channel3); free(channel4); free(channel5); } unsigned long cib_num_ops = 0; const char *cib_stat_interval = "10min"; unsigned long cib_num_local = 0, cib_num_updates = 0, cib_num_fail = 0; unsigned long cib_bad_connects = 0, cib_num_timeouts = 0; #if SUPPORT_HEARTBEAT gboolean ccm_connect(void); static void ccm_connection_destroy(gpointer user_data) { crm_err("CCM connection failed... blocking while we reconnect"); CRM_ASSERT(ccm_connect()); return; } static void *ccm_library = NULL; gboolean ccm_connect(void) { gboolean did_fail = TRUE; int num_ccm_fails = 0; int max_ccm_fails = 30; int ret; int cib_ev_fd; int (*ccm_api_register) (oc_ev_t ** token) = find_library_function(&ccm_library, CCM_LIBRARY, "oc_ev_register", 1); int (*ccm_api_set_callback) (const oc_ev_t * token, oc_ev_class_t class, oc_ev_callback_t * fn, oc_ev_callback_t ** prev_fn) = find_library_function(&ccm_library, CCM_LIBRARY, "oc_ev_set_callback", 1); void (*ccm_api_special) (const oc_ev_t *, oc_ev_class_t, int) = find_library_function(&ccm_library, CCM_LIBRARY, "oc_ev_special", 1); int (*ccm_api_activate) (const oc_ev_t * token, int *fd) = find_library_function(&ccm_library, CCM_LIBRARY, "oc_ev_activate", 1); int (*ccm_api_unregister) (oc_ev_t * token) = find_library_function(&ccm_library, CCM_LIBRARY, "oc_ev_unregister", 1); static struct mainloop_fd_callbacks ccm_fd_callbacks = { .dispatch = cib_ccm_dispatch, .destroy = ccm_connection_destroy, }; while (did_fail) { did_fail = FALSE; crm_info("Registering with CCM..."); ret = (*ccm_api_register) (&cib_ev_token); if (ret != 0) { did_fail = TRUE; } if (did_fail == FALSE) { crm_trace("Setting up CCM callbacks"); ret = (*ccm_api_set_callback) (cib_ev_token, OC_EV_MEMB_CLASS, cib_ccm_msg_callback, NULL); if (ret != 0) { crm_warn("CCM callback not set"); did_fail = TRUE; } } if (did_fail == FALSE) { (*ccm_api_special) (cib_ev_token, OC_EV_MEMB_CLASS, 0); crm_trace("Activating CCM token"); ret = (*ccm_api_activate) (cib_ev_token, &cib_ev_fd); if (ret != 0) { crm_warn("CCM Activation failed"); did_fail = TRUE; } } if (did_fail) { num_ccm_fails++; (*ccm_api_unregister) (cib_ev_token); if (num_ccm_fails < max_ccm_fails) { crm_warn("CCM Connection failed %d times (%d max)", num_ccm_fails, max_ccm_fails); sleep(3); } else { crm_err("CCM Activation failed %d (max) times", num_ccm_fails); return FALSE; } } } crm_debug("CCM Activation passed... all set to go!"); mainloop_add_fd("heartbeat-ccm", G_PRIORITY_MEDIUM, cib_ev_fd, cib_ev_token, &ccm_fd_callbacks); return TRUE; } #endif #if SUPPORT_COROSYNC static void cib_cs_dispatch(cpg_handle_t handle, const struct cpg_name *groupName, uint32_t nodeid, uint32_t pid, void *msg, size_t msg_len) { uint32_t kind = 0; xmlNode *xml = NULL; const char *from = NULL; char *data = pcmk_message_common_cs(handle, nodeid, pid, msg, &kind, &from); if(data == NULL) { return; } if (kind == crm_class_cluster) { xml = string2xml(data); if (xml == NULL) { crm_err("Invalid XML: '%.120s'", data); free(data); return; } crm_xml_add(xml, F_ORIG, from); /* crm_xml_add_int(xml, F_SEQ, wrapper->id); */ cib_peer_callback(xml, NULL); } free_xml(xml); free(data); } static void cib_cs_destroy(gpointer user_data) { if (cib_shutdown_flag) { crm_info("Corosync disconnection complete"); } else { crm_err("Corosync connection lost! Exiting."); terminate_cib(__FUNCTION__, -1); } } #endif static void cib_peer_update_callback(enum crm_status_type type, crm_node_t * node, const void *data) { switch (type) { case crm_status_processes: #if !SUPPORT_PLUGIN if (cib_legacy_mode() && is_not_set(node->processes, crm_get_cluster_proc())) { uint32_t old = data? *(const uint32_t *)data : 0; if ((node->processes ^ old) & crm_proc_cpg) { crm_info("Attempting to disable legacy mode after %s left the cluster", node->uname); legacy_mode = FALSE; } } #endif break; case crm_status_uname: case crm_status_rstate: case crm_status_nstate: if (cib_shutdown_flag && (crm_active_peers() < 2) && crm_hash_table_size(client_connections) == 0) { crm_info("No more peers"); terminate_cib(__FUNCTION__, 1); } break; } } #if SUPPORT_HEARTBEAT static void cib_ha_connection_destroy(gpointer user_data) { if (cib_shutdown_flag) { crm_info("Heartbeat disconnection complete... exiting"); terminate_cib(__FUNCTION__, 0); } else { crm_err("Heartbeat connection lost! Exiting."); terminate_cib(__FUNCTION__, -1); } } #endif int cib_init(void) { if (is_openais_cluster()) { #if SUPPORT_COROSYNC crm_cluster.destroy = cib_cs_destroy; crm_cluster.cpg.cpg_deliver_fn = cib_cs_dispatch; crm_cluster.cpg.cpg_confchg_fn = pcmk_cpg_membership; #endif } else if (is_heartbeat_cluster()) { #if SUPPORT_HEARTBEAT crm_cluster.hb_dispatch = cib_ha_peer_callback; crm_cluster.destroy = cib_ha_connection_destroy; #endif } config_hash = g_hash_table_new_full(crm_str_hash, g_str_equal, g_hash_destroy_str, g_hash_destroy_str); if (startCib("cib.xml") == FALSE) { crm_crit("Cannot start CIB... terminating"); crm_exit(ENODATA); } if (stand_alone == FALSE) { if (is_openais_cluster()) { crm_set_status_callback(&cib_peer_update_callback); } if (crm_cluster_connect(&crm_cluster) == FALSE) { crm_crit("Cannot sign in to the cluster... terminating"); crm_exit(DAEMON_RESPAWN_STOP); } cib_our_uname = crm_cluster.uname; #if SUPPORT_HEARTBEAT if (is_heartbeat_cluster()) { gboolean was_error = FALSE; hb_conn = crm_cluster.hb_conn; if (was_error == FALSE) { if (HA_OK != hb_conn->llc_ops->set_cstatus_callback(hb_conn, cib_client_status_callback, hb_conn)) { crm_err("Cannot set cstatus callback: %s", hb_conn->llc_ops->errmsg(hb_conn)); was_error = TRUE; } } if (was_error == FALSE) { was_error = (ccm_connect() == FALSE); } if (was_error == FALSE) { /* Async get client status information in the cluster */ crm_info("Requesting the list of configured nodes"); hb_conn->llc_ops->client_status(hb_conn, NULL, CRM_SYSTEM_CIB, -1); } } #endif } else { cib_our_uname = strdup("localhost"); } cib_ipc_servers_init(&ipcs_ro, &ipcs_rw, &ipcs_shm, &ipc_ro_callbacks, &ipc_rw_callbacks); if (stand_alone) { cib_is_master = TRUE; } /* Create the mainloop and run it... */ mainloop = g_main_new(FALSE); crm_info("Starting %s mainloop", crm_system_name); g_main_run(mainloop); /* If main loop returned, clean up and exit. We disconnect in case * terminate_cib() was called with fast=1. */ crm_cluster_disconnect(&crm_cluster); cib_ipc_servers_destroy(ipcs_ro, ipcs_rw, ipcs_shm); return crm_exit(pcmk_ok); } gboolean startCib(const char *filename) { gboolean active = FALSE; xmlNode *cib = readCibXmlFile(cib_root, filename, !preserve_status); CRM_ASSERT(cib != NULL); if (activateCibXml(cib, TRUE, "start") == 0) { int port = 0; const char *port_s = NULL; active = TRUE; cib_read_config(config_hash, cib); port_s = crm_element_value(cib, "remote-tls-port"); if (port_s) { port = crm_parse_int(port_s, "0"); remote_tls_fd = init_remote_listener(port, TRUE); } port_s = crm_element_value(cib, "remote-clear-port"); if (port_s) { port = crm_parse_int(port_s, "0"); remote_fd = init_remote_listener(port, FALSE); } crm_info("CIB Initialization completed successfully"); } return active; } diff --git a/doc/Pacemaker_Explained/en-US/Ch-Advanced-Options.txt b/doc/Pacemaker_Explained/en-US/Ch-Advanced-Options.txt index e3f4634c5a..b470d16e3f 100644 --- a/doc/Pacemaker_Explained/en-US/Ch-Advanced-Options.txt +++ b/doc/Pacemaker_Explained/en-US/Ch-Advanced-Options.txt @@ -1,823 +1,823 @@ = Advanced Configuration = [[s-remote-connection]] == Connecting from a Remote Machine == indexterm:[Cluster,Remote connection] indexterm:[Cluster,Remote administration] Provided Pacemaker is installed on a machine, it is possible to connect to the cluster even if the machine itself is not in the same cluster. To do this, one simply sets up a number of environment variables and runs the same commands as when working on a cluster node. .Environment Variables Used to Connect to Remote Instances of the CIB [width="95%",cols="1m,1,3<",options="header",align="center"] |========================================================= |Environment Variable |Default |Description |CIB_user |$USER -|The user to connect as. Needs to be part of the +hacluster+ group on +|The user to connect as. Needs to be part of the +haclient+ group on the target host. indexterm:[Environment Variable,CIB_user] |CIB_passwd | |The user's password. Read from the command line if unset. indexterm:[Environment Variable,CIB_passwd] |CIB_server |localhost |The host to contact indexterm:[Environment Variable,CIB_server] |CIB_port | |The port on which to contact the server; required. indexterm:[Environment Variable,CIB_port] |CIB_encrypted |TRUE |Whether to encrypt network traffic indexterm:[Environment Variable,CIB_encrypted] |========================================================= So, if *c001n01* is an active cluster node and is listening on port 1234 -for connections, and *someuser* is a member of the *hacluster* group, +for connections, and *someuser* is a member of the *haclient* group, then the following would prompt for *someuser*'s password and return the cluster's current configuration: ---- # export CIB_port=1234; export CIB_server=c001n01; export CIB_user=someuser; # cibadmin -Q ---- For security reasons, the cluster does not listen for remote connections by default. If you wish to allow remote access, you need to set the +remote-tls-port+ (encrypted) or +remote-clear-port+ (unencrypted) CIB properties (i.e., those kept in the +cib+ tag, like +num_updates+ and +epoch+). .Extra top-level CIB properties for remote access [width="95%",cols="1m,1,3<",options="header",align="center"] |========================================================= |Field |Default |Description |remote-tls-port |_none_ |Listen for encrypted remote connections on this port. indexterm:[remote-tls-port,Remote Connection Option] indexterm:[Remote Connection,Option,remote-tls-port] |remote-clear-port |_none_ |Listen for plaintext remote connections on this port. indexterm:[remote-clear-port,Remote Connection Option] indexterm:[Remote Connection,Option,remote-clear-port] |========================================================= [[s-recurring-start]] == Specifying When Recurring Actions are Performed == By default, recurring actions are scheduled relative to when the resource started. So if your resource was last started at 14:32 and you have a backup set to be performed every 24 hours, then the backup will always run in the middle of the business day -- hardly desirable. To specify a date and time that the operation should be relative to, set the operation's +interval-origin+. The cluster uses this point to calculate the correct +start-delay+ such that the operation will occur at _origin + (interval * N)_. So, if the operation's interval is 24h, its interval-origin is set to 02:00 and it is currently 14:32, then the cluster would initiate the operation with a start delay of 11 hours and 28 minutes. If the resource is moved to another node before 2am, then the operation is cancelled. The value specified for +interval+ and +interval-origin+ can be any date/time conforming to the http://en.wikipedia.org/wiki/ISO_8601[ISO8601 standard]. By way of example, to specify an operation that would run on the first Monday of 2009 and every Monday after that, you would add: .Specifying a Base for Recurring Action Intervals ===== [source,XML] ===== == Moving Resources == indexterm:[Moving,Resources] indexterm:[Resource,Moving] === Moving Resources Manually === There are primarily two occasions when you would want to move a resource from its current location: when the whole node is under maintenance, and when a single resource needs to be moved. ==== Standby Mode ==== Since everything eventually comes down to a score, you could create constraints for every resource to prevent them from running on one node. While pacemaker configuration can seem convoluted at times, not even we would require this of administrators. Instead, one can set a special node attribute which tells the cluster "don't let anything run here". There is even a helpful tool to help query and set it, called `crm_standby`. To check the standby status of the current machine, run: ---- # crm_standby -G ---- A value of +on+ indicates that the node is _not_ able to host any resources, while a value of +off+ says that it _can_. You can also check the status of other nodes in the cluster by specifying the `--node` option: ---- # crm_standby -G --node sles-2 ---- To change the current node's standby status, use `-v` instead of `-G`: ---- # crm_standby -v on ---- Again, you can change another host's value by supplying a hostname with `--node`. ==== Moving One Resource ==== When only one resource is required to move, we could do this by creating location constraints. However, once again we provide a user-friendly shortcut as part of the `crm_resource` command, which creates and modifies the extra constraints for you. If +Email+ were running on +sles-1+ and you wanted it moved to a specific location, the command would look something like: ---- # crm_resource -M -r Email -H sles-2 ---- Behind the scenes, the tool will create the following location constraint: [source,XML] It is important to note that subsequent invocations of `crm_resource -M` are not cumulative. So, if you ran these commands ---- # crm_resource -M -r Email -H sles-2 # crm_resource -M -r Email -H sles-3 ---- then it is as if you had never performed the first command. To allow the resource to move back again, use: ---- # crm_resource -U -r Email ---- Note the use of the word _allow_. The resource can move back to its original location but, depending on +resource-stickiness+, it might stay where it is. To be absolutely certain that it moves back to +sles-1+, move it there before issuing the call to `crm_resource -U`: ---- # crm_resource -M -r Email -H sles-1 # crm_resource -U -r Email ---- Alternatively, if you only care that the resource should be moved from its current location, try: ---- # crm_resource -B -r Email ---- Which will instead create a negative constraint, like [source,XML] This will achieve the desired effect, but will also have long-term consequences. As the tool will warn you, the creation of a +-INFINITY+ constraint will prevent the resource from running on that node until `crm_resource -U` is used. This includes the situation where every other cluster node is no longer available! In some cases, such as when +resource-stickiness+ is set to +INFINITY+, it is possible that you will end up with the problem described in <>. The tool can detect some of these cases and deals with them by creating both positive and negative constraints. E.g. +Email+ prefers +sles-1+ with a score of +-INFINITY+ +Email+ prefers +sles-2+ with a score of +INFINITY+ which has the same long-term consequences as discussed earlier. [[s-failure-migration]] === Moving Resources Due to Failure === Normally, if a running resource fails, pacemaker will try to start it again on the same node. However if a resource fails repeatedly, it is possible that there is an underlying problem on that node, and you might desire trying a different node in such a case. indexterm:[migration-threshold] indexterm:[failure-timeout] indexterm:[start-failure-is-fatal] Pacemaker allows you to set your preference via the +migration-threshold+ resource option. footnote:[ The naming of this option was perhaps unfortunate as it is easily confused with live migration, the process of moving a resource from one node to another without stopping it. Xen virtual guests are the most common example of resources that can be migrated in this manner. ] Simply define +migration-threshold=pass:[N]+ for a resource and it will migrate to a new node after 'N' failures. There is no threshold defined by default. To determine the resource's current failure status and limits, run `crm_mon --failcounts`. By default, once the threshold has been reached, the troublesome node will no longer be allowed to run the failed resource until the administrator manually resets the resource's failcount using `crm_failcount` (after hopefully first fixing the failure's cause). Alternatively, it is possible to expire them by setting the +failure-timeout+ option for the resource. For example, a setting of +migration-threshold=2+ and +failure-timeout=60s+ would cause the resource to move to a new node after 2 failures, and allow it to move back (depending on stickiness and constraint scores) after one minute. There are two exceptions to the migration threshold concept: when a resource either fails to start or fails to stop. If the cluster property +start-failure-is-fatal+ is set to +true+ (which is the default), start failures cause the failcount to be set to +INFINITY+ and thus always cause the resource to move immediately. Stop failures are slightly different and crucial. If a resource fails to stop and STONITH is enabled, then the cluster will fence the node in order to be able to start the resource elsewhere. If STONITH is not enabled, then the cluster has no way to continue and will not try to start the resource elsewhere, but will try to stop it again after the failure timeout. [IMPORTANT] Please read <> to understand how timeouts work before configuring a +failure-timeout+. === Moving Resources Due to Connectivity Changes === You can configure the cluster to move resources when external connectivity is lost in two steps. ==== Tell Pacemaker to Monitor Connectivity ==== First, add an *ocf:pacemaker:ping* resource to the cluster. The *ping* resource uses the system utility of the same name to a test whether list of machines (specified by DNS hostname or IPv4/IPv6 address) are reachable and uses the results to maintain a node attribute called +pingd+ by default. footnote:[ The attribute name is customizable, in order to allow multiple ping groups to be defined. ] [NOTE] =========== Older versions of Heartbeat required users to add ping nodes to +ha.cf+, but this is no longer required. Older versions of Pacemaker used a different agent *ocf:pacemaker:pingd* which is now deprecated in favor of *ping*. If your version of Pacemaker does not contain the *ping* resource agent, download the latest version from https://github.com/ClusterLabs/pacemaker/tree/master/extra/resources/ping =========== Normally, the ping resource should run on all cluster nodes, which means that you'll need to create a clone. A template for this can be found below along with a description of the most interesting parameters. .Common Options for a 'ping' Resource [width="95%",cols="1m,4<",options="header",align="center"] |========================================================= |Field |Description |dampen |The time to wait (dampening) for further changes to occur. Use this to prevent a resource from bouncing around the cluster when cluster nodes notice the loss of connectivity at slightly different times. indexterm:[dampen,Ping Resource Option] indexterm:[Ping Resource,Option,dampen] |multiplier |The number of connected ping nodes gets multiplied by this value to get a score. Useful when there are multiple ping nodes configured. indexterm:[multiplier,Ping Resource Option] indexterm:[Ping Resource,Option,multiplier] |host_list |The machines to contact in order to determine the current connectivity status. Allowed values include resolvable DNS host names, IPv4 and IPv6 addresses. indexterm:[host_list,Ping Resource Option] indexterm:[Ping Resource,Option,host_list] |========================================================= .An example ping cluster resource that checks node connectivity once every minute ===== [source,XML] ------------ ------------ ===== [IMPORTANT] =========== You're only half done. The next section deals with telling Pacemaker how to deal with the connectivity status that +ocf:pacemaker:ping+ is recording. =========== ==== Tell Pacemaker How to Interpret the Connectivity Data ==== [IMPORTANT] ====== Before attempting the following, make sure you understand <>. ====== There are a number of ways to use the connectivity data. The most common setup is for people to have a single ping target (e.g. the service network's default gateway), to prevent the cluster from running a resource on any unconnected node. .Don't run a resource on unconnected nodes ===== [source,XML] ------- ------- ===== A more complex setup is to have a number of ping targets configured. You can require the cluster to only run resources on nodes that can connect to all (or a minimum subset) of them. .Run only on nodes connected to three or more ping targets. ===== [source,XML] ------- ... ... ... ------- ===== Alternatively, you can tell the cluster only to _prefer_ nodes with the best connectivity. Just be sure to set +multiplier+ to a value higher than that of +resource-stickiness+ (and don't set either of them to +INFINITY+). .Prefer the node with the most connected ping nodes ===== [source,XML] ------- ------- ===== It is perhaps easier to think of this in terms of the simple constraints that the cluster translates it into. For example, if *sles-1* is connected to all five ping nodes but *sles-2* is only connected to two, then it would be as if you instead had the following constraints in your configuration: .How the cluster translates the above location constraint ===== [source,XML] ------- ------- ===== The advantage is that you don't have to manually update any constraints whenever your network connectivity changes. You can also combine the concepts above into something even more complex. The example below shows how you can prefer the node with the most connected ping nodes provided they have connectivity to at least three (again assuming that +multiplier+ is set to 1000). .A more complex example of choosing a location based on connectivity ===== [source,XML] ------- ------- ===== [[s-migrating-resources]] === Migrating Resources === Normally, when the cluster needs to move a resource, it fully restarts the resource (i.e. stops the resource on the current node and starts it on the new node). However, some types of resources, such as Xen virtual guests, are able to move to another location without loss of state (often referred to as live migration or hot migration). In pacemaker, this is called resource migration. Pacemaker can be configured to migrate a resource when moving it, rather than restarting it. Not all resources are able to migrate; see the Migration Checklist below, and those that can, won't do so in all situations. Conceptually, there are two requirements from which the other prerequisites follow: * The resource must be active and healthy at the old location; and * everything required for the resource to run must be available on both the old and new locations. The cluster is able to accommodate both 'push' and 'pull' migration models by requiring the resource agent to support two special actions: +migrate_to+ (performed on the current location) and +migrate_from+ (performed on the destination). In push migration, the process on the current location transfers the resource to the new location where is it later activated. In this scenario, most of the work would be done in the +migrate_to+ action and, if anything, the activation would occur during +migrate_from+. Conversely for pull, the +migrate_to+ action is practically empty and +migrate_from+ does most of the work, extracting the relevant resource state from the old location and activating it. There is no wrong or right way for a resource agent to implement migration, as long as it works. .Migration Checklist * The resource may not be a clone. * The resource must use an OCF style agent. * The resource must not be in a failed or degraded state. * The resource agent must support +migrate_to+ and +migrate_from+ actions, and advertise them in its metadata. * The resource must have the +allow-migrate+ meta-attribute set to +true+ (which is not the default). If an otherwise migratable resource depends on another resource via an ordering constraint, there are special situations in which it will be restarted rather than migrated. For example, if the resource depends on a clone, and at the time the resource needs to be moved, the clone has instances that are stopping and instances that are starting, then the resource will be restarted. The Policy Engine is not yet able to model this situation correctly and so takes the safer (if less optimal) path. In pacemaker 1.1.11 and earlier, a migratable resource will be restarted when moving if it directly or indirectly depends on 'any' primitive or group resources. Even in newer versions, if a migratable resource depends on a non-migratable resource, and both need to be moved, the migratable resource will be restarted. [[s-node-health]] == Tracking Node Health == A node may be functioning adequately as far as cluster membership is concerned, and yet be "unhealthy" in some respect that makes it an undesirable location for resources. For example, a disk drive may be reporting SMART errors, or the CPU may be highly loaded. Pacemaker offers a way to automatically move resources off unhealthy nodes. === Node Health Attributes === Pacemaker will treat any node attribute whose name starts with +#health+ as an indicator of node health. Node health attributes may have one of the following values: .Allowed Values for Node Health Attributes [width="95%",cols="1,3<",options="header",align="center"] |========================================================= |Value |Intended significance |+red+ |This indicator is unhealthy indexterm:[Node health,red] |+yellow+ |This indicator is becoming unhealthy indexterm:[Node health,yellow] |+green+ |This indicator is healthy indexterm:[Node health,green] |'integer' |A numeric score to apply to all resources on this node (0 or positive is healthy, negative is unhealthy) indexterm:[Node health,score] |========================================================= === Node Health Strategy === Pacemaker assigns a node health score to each node, as the sum of the values of all its node health attributes. This score will be used as a location constraint applied to this node for all resources. The +node-health-strategy+ cluster option controls how Pacemaker responds to changes in node health attributes, and how it translates +red+, +yellow+, and +green+ to scores. Allowed values are: .Node Health Strategies [width="95%",cols="1m,3<",options="header",align="center"] |========================================================= |Value |Effect |none |Do not track node health attributes at all. indexterm:[Node health,none] |migrate-on-red |Assign the value of +-INFINITY+ to +red+, and 0 to +yellow+ and +green+. This will cause all resources to move off the node if any attribute is +red+. indexterm:[Node health,migrate-on-red] |only-green |Assign the value of +-INFINITY+ to +red+ and +yellow+, and 0 to +green+. This will cause all resources to move off the node if any attribute is +red+ or +yellow+. indexterm:[Node health,only-green] |progressive |Assign the value of the +node-health-red+ cluster option to +red+, the value of +node-health-yellow+ to +yellow+, and the value of +node-health-green+ to +green+. Each node is additionally assigned a score of +node-health-base+ (this allows resources to start even if some attributes are +yellow+). This strategy gives the administrator finer control over how important each value is. indexterm:[Node health,progressive] |custom |Track node health attributes using the same values as +progressive+ for +red+, +yellow+, and +green+, but do not take them into account. The administrator is expected to implement a policy by defining rules (see <>) referencing node health attributes. indexterm:[Node health,custom] |========================================================= === Measuring Node Health === Since Pacemaker calculates node health based on node attributes, any method that sets node attributes may be used to measure node health. The most common ways are resource agents or separate daemons. Pacemaker provides examples that can be used directly or as a basis for custom code. The +ocf:pacemaker:HealthCPU+ and +ocf:pacemaker:HealthSMART+ resource agents set node health attributes based on CPU and disk parameters. The +ipmiservicelogd+ daemon sets node health attributes based on IPMI values (the +ocf:pacemaker:SystemHealth+ resource agent can be used to manage the daemon as a cluster resource). [[s-reusing-config-elements]] == Reusing Rules, Options and Sets of Operations == Sometimes a number of constraints need to use the same set of rules, and resources need to set the same options and parameters. To simplify this situation, you can refer to an existing object using an +id-ref+ instead of an id. So if for one resource you have [source,XML] ------ ------ Then instead of duplicating the rule for all your other resources, you can instead specify: .Referencing rules from other constraints ===== [source,XML] ------- ------- ===== [IMPORTANT] =========== The cluster will insist that the +rule+ exists somewhere. Attempting to add a reference to a non-existing rule will cause a validation failure, as will attempting to remove a +rule+ that is referenced elsewhere. =========== The same principle applies for +meta_attributes+ and +instance_attributes+ as illustrated in the example below: .Referencing attributes, options, and operations from other resources ===== [source,XML] ------- ------- ===== == Reloading Services After a Definition Change == The cluster automatically detects changes to the definition of services it manages. The normal response is to stop the service (using the old definition) and start it again (with the new definition). This works well, but some services are smarter and can be told to use a new set of options without restarting. To take advantage of this capability, the resource agent must: . Accept the +reload+ operation and perform any required actions. _The actions here depend completely on your application!_ + .The DRBD agent's logic for supporting +reload+ ===== [source,Bash] ------- case $1 in start) drbd_start ;; stop) drbd_stop ;; reload) drbd_reload ;; monitor) drbd_monitor ;; *) drbd_usage exit $OCF_ERR_UNIMPLEMENTED ;; esac exit $? ------- ===== . Advertise the +reload+ operation in the +actions+ section of its metadata + .The DRBD Agent Advertising Support for the +reload+ Operation ===== [source,XML] ------- 1.1 Master/Slave OCF Resource Agent for DRBD ... ------- ===== . Advertise one or more parameters that can take effect using +reload+. + Any parameter with the +unique+ set to 0 is eligible to be used in this way. + .Parameter that can be changed using reload ===== [source,XML] ------- Full path to the drbd.conf file. Path to drbd.conf ------- ===== Once these requirements are satisfied, the cluster will automatically know to reload the resource (instead of restarting) when a non-unique field changes. [NOTE] ====== Metadata will not be re-read unless the resource needs to be started. This may mean that the resource will be restarted the first time, even though you changed a parameter with +unique=0+. ====== [NOTE] ====== If both a unique and non-unique field are changed simultaneously, the resource will still be restarted. ====== diff --git a/lib/cib/cib_attrs.c b/lib/cib/cib_attrs.c index 8640219a4a..a7cb0bc2c1 100644 --- a/lib/cib/cib_attrs.c +++ b/lib/cib/cib_attrs.c @@ -1,601 +1,601 @@ /* * Copyright (C) 2004 Andrew Beekhof * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define attr_msg(level, fmt, args...) do { \ if(to_console) { \ printf(fmt"\n", ##args); \ } else { \ do_crm_log(level, fmt , ##args); \ } \ } while(0) /* could also check for possible truncation */ #define attr_snprintf(_str, _offset, _limit, ...) do { \ _offset += snprintf(_str + _offset, \ (_limit > _offset) ? _limit - _offset : 0, \ __VA_ARGS__); \ } while(0) extern int find_nvpair_attr_delegate(cib_t * the_cib, const char *attr, const char *section, const char *node_uuid, const char *attr_set_type, const char *set_name, const char *attr_id, const char *attr_name, gboolean to_console, char **value, const char *user_name) { int offset = 0; static int xpath_max = 1024; int rc = pcmk_ok; char *xpath_string = NULL; xmlNode *xml_search = NULL; const char *set_type = NULL; const char *node_type = NULL; if (attr_set_type) { set_type = attr_set_type; } else { set_type = XML_TAG_ATTR_SETS; } CRM_ASSERT(value != NULL); *value = NULL; if (safe_str_eq(section, XML_CIB_TAG_CRMCONFIG)) { node_uuid = NULL; set_type = XML_CIB_TAG_PROPSET; } else if (safe_str_eq(section, XML_CIB_TAG_OPCONFIG) || safe_str_eq(section, XML_CIB_TAG_RSCCONFIG)) { node_uuid = NULL; set_type = XML_TAG_META_SETS; } else if (safe_str_eq(section, XML_CIB_TAG_TICKETS)) { node_uuid = NULL; section = XML_CIB_TAG_STATUS; node_type = XML_CIB_TAG_TICKETS; } else if (node_uuid == NULL) { return -EINVAL; } xpath_string = calloc(1, xpath_max); if (xpath_string == NULL) { crm_perror(LOG_CRIT, "Could not create xpath"); return -ENOMEM; } attr_snprintf(xpath_string, offset, xpath_max, "%.128s", get_object_path(section)); if (safe_str_eq(node_type, XML_CIB_TAG_TICKETS)) { attr_snprintf(xpath_string, offset, xpath_max, "//%s", node_type); } else if (node_uuid) { const char *node_type = XML_CIB_TAG_NODE; if (safe_str_eq(section, XML_CIB_TAG_STATUS)) { node_type = XML_CIB_TAG_STATE; set_type = XML_TAG_TRANSIENT_NODEATTRS; } attr_snprintf(xpath_string, offset, xpath_max, "//%s[@id='%s']", node_type, node_uuid); } if (set_name) { attr_snprintf(xpath_string, offset, xpath_max, "//%s[@id='%.128s']", set_type, set_name); } else { attr_snprintf(xpath_string, offset, xpath_max, "//%s", set_type); } attr_snprintf(xpath_string, offset, xpath_max, "//nvpair["); if (attr_id) { attr_snprintf(xpath_string, offset, xpath_max, "@id='%s'", attr_id); } if (attr_name) { if (attr_id) { attr_snprintf(xpath_string, offset, xpath_max, " and "); } attr_snprintf(xpath_string, offset, xpath_max, "@name='%.128s'", attr_name); } attr_snprintf(xpath_string, offset, xpath_max, "]"); CRM_LOG_ASSERT(offset > 0); rc = cib_internal_op(the_cib, CIB_OP_QUERY, NULL, xpath_string, NULL, &xml_search, cib_sync_call | cib_scope_local | cib_xpath, user_name); if (rc != pcmk_ok) { crm_trace("Query failed for attribute %s (section=%s, node=%s, set=%s, xpath=%s): %s", attr_name, section, crm_str(node_uuid), crm_str(set_name), xpath_string, pcmk_strerror(rc)); goto done; } crm_log_xml_debug(xml_search, "Match"); if (xml_has_children(xml_search)) { xmlNode *child = NULL; rc = -ENOTUNIQ; attr_msg(LOG_WARNING, "Multiple attributes match name=%s", attr_name); for (child = __xml_first_child(xml_search); child != NULL; child = __xml_next(child)) { attr_msg(LOG_INFO, " Value: %s \t(id=%s)", crm_element_value(child, XML_NVPAIR_ATTR_VALUE), ID(child)); } } else { const char *tmp = crm_element_value(xml_search, attr); if (tmp) { *value = strdup(tmp); } } done: free(xpath_string); free_xml(xml_search); return rc; } int update_attr_delegate(cib_t * the_cib, int call_options, const char *section, const char *node_uuid, const char *set_type, const char *set_name, const char *attr_id, const char *attr_name, const char *attr_value, gboolean to_console, const char *user_name, const char *node_type) { const char *tag = NULL; int rc = pcmk_ok; xmlNode *xml_top = NULL; xmlNode *xml_obj = NULL; char *local_attr_id = NULL; char *local_set_name = NULL; CRM_CHECK(section != NULL, return -EINVAL); CRM_CHECK(attr_value != NULL, return -EINVAL); CRM_CHECK(attr_name != NULL || attr_id != NULL, return -EINVAL); rc = find_nvpair_attr_delegate(the_cib, XML_ATTR_ID, section, node_uuid, set_type, set_name, attr_id, attr_name, to_console, &local_attr_id, user_name); if (rc == pcmk_ok) { attr_id = local_attr_id; goto do_modify; } else if (rc != -ENXIO) { return rc; /* } else if(attr_id == NULL) { */ /* return -EINVAL; */ } else { crm_trace("%s does not exist, create it", attr_name); if (safe_str_eq(section, XML_CIB_TAG_TICKETS)) { node_uuid = NULL; section = XML_CIB_TAG_STATUS; node_type = XML_CIB_TAG_TICKETS; xml_top = create_xml_node(xml_obj, XML_CIB_TAG_STATUS); xml_obj = create_xml_node(xml_top, XML_CIB_TAG_TICKETS); } else if (safe_str_eq(section, XML_CIB_TAG_NODES)) { if (node_uuid == NULL) { return -EINVAL; } if (safe_str_eq(node_type, "remote")) { xml_top = create_xml_node(xml_obj, XML_CIB_TAG_NODES); xml_obj = create_xml_node(xml_top, XML_CIB_TAG_NODE); crm_xml_add(xml_obj, XML_ATTR_TYPE, "remote"); crm_xml_add(xml_obj, XML_ATTR_ID, node_uuid); crm_xml_add(xml_obj, XML_ATTR_UNAME, node_uuid); } else { tag = XML_CIB_TAG_NODE; } } else if (safe_str_eq(section, XML_CIB_TAG_STATUS)) { tag = XML_TAG_TRANSIENT_NODEATTRS; if (node_uuid == NULL) { return -EINVAL; } xml_top = create_xml_node(xml_obj, XML_CIB_TAG_STATE); crm_xml_add(xml_top, XML_ATTR_ID, node_uuid); xml_obj = xml_top; } else { tag = section; node_uuid = NULL; } if (set_name == NULL) { if (safe_str_eq(section, XML_CIB_TAG_CRMCONFIG)) { local_set_name = strdup(CIB_OPTIONS_FIRST); } else if (safe_str_eq(node_type, XML_CIB_TAG_TICKETS)) { local_set_name = crm_concat(section, XML_CIB_TAG_TICKETS, '-'); } else if (node_uuid) { local_set_name = crm_concat(section, node_uuid, '-'); if (set_type) { char *tmp_set_name = local_set_name; local_set_name = crm_concat(tmp_set_name, set_type, '-'); free(tmp_set_name); } } else { local_set_name = crm_concat(section, "options", '-'); } set_name = local_set_name; } if (attr_id == NULL) { int lpc = 0; local_attr_id = crm_concat(set_name, attr_name, '-'); attr_id = local_attr_id; /* Minimal attempt at sanitizing automatic IDs */ for (lpc = 0; local_attr_id[lpc] != 0; lpc++) { switch (local_attr_id[lpc]) { case ':': local_attr_id[lpc] = '.'; } } } else if (attr_name == NULL) { attr_name = attr_id; } crm_trace("Creating %s/%s", section, tag); if (tag != NULL) { xml_obj = create_xml_node(xml_obj, tag); crm_xml_add(xml_obj, XML_ATTR_ID, node_uuid); if (xml_top == NULL) { xml_top = xml_obj; } } if (node_uuid == NULL && safe_str_neq(node_type, XML_CIB_TAG_TICKETS)) { if (safe_str_eq(section, XML_CIB_TAG_CRMCONFIG)) { xml_obj = create_xml_node(xml_obj, XML_CIB_TAG_PROPSET); } else { xml_obj = create_xml_node(xml_obj, XML_TAG_META_SETS); } } else if (set_type) { xml_obj = create_xml_node(xml_obj, set_type); } else { xml_obj = create_xml_node(xml_obj, XML_TAG_ATTR_SETS); } crm_xml_add(xml_obj, XML_ATTR_ID, set_name); if (xml_top == NULL) { xml_top = xml_obj; } } do_modify: xml_obj = create_xml_node(xml_obj, XML_CIB_TAG_NVPAIR); if (xml_top == NULL) { xml_top = xml_obj; } crm_xml_add(xml_obj, XML_ATTR_ID, attr_id); crm_xml_add(xml_obj, XML_NVPAIR_ATTR_NAME, attr_name); crm_xml_add(xml_obj, XML_NVPAIR_ATTR_VALUE, attr_value); crm_log_xml_trace(xml_top, "update_attr"); rc = cib_internal_op(the_cib, CIB_OP_MODIFY, NULL, section, xml_top, NULL, call_options | cib_quorum_override, user_name); if (rc < pcmk_ok) { attr_msg(LOG_ERR, "Error setting %s=%s (section=%s, set=%s): %s", attr_name, attr_value, section, crm_str(set_name), pcmk_strerror(rc)); crm_log_xml_info(xml_top, "Update"); } free(local_set_name); free(local_attr_id); free_xml(xml_top); return rc; } int read_attr_delegate(cib_t * the_cib, const char *section, const char *node_uuid, const char *set_type, const char *set_name, const char *attr_id, const char *attr_name, char **attr_value, gboolean to_console, const char *user_name) { int rc = pcmk_ok; CRM_ASSERT(attr_value != NULL); CRM_CHECK(section != NULL, return -EINVAL); CRM_CHECK(attr_name != NULL || attr_id != NULL, return -EINVAL); *attr_value = NULL; rc = find_nvpair_attr_delegate(the_cib, XML_NVPAIR_ATTR_VALUE, section, node_uuid, set_type, set_name, attr_id, attr_name, to_console, attr_value, user_name); if (rc != pcmk_ok) { crm_trace("Query failed for attribute %s (section=%s, node=%s, set=%s): %s", attr_name, section, crm_str(set_name), crm_str(node_uuid), pcmk_strerror(rc)); } return rc; } int delete_attr_delegate(cib_t * the_cib, int options, const char *section, const char *node_uuid, const char *set_type, const char *set_name, const char *attr_id, const char *attr_name, const char *attr_value, gboolean to_console, const char *user_name) { int rc = pcmk_ok; xmlNode *xml_obj = NULL; char *local_attr_id = NULL; CRM_CHECK(section != NULL, return -EINVAL); CRM_CHECK(attr_name != NULL || attr_id != NULL, return -EINVAL); if (attr_id == NULL) { rc = find_nvpair_attr_delegate(the_cib, XML_ATTR_ID, section, node_uuid, set_type, set_name, attr_id, attr_name, to_console, &local_attr_id, user_name); if (rc != pcmk_ok) { return rc; } attr_id = local_attr_id; } xml_obj = create_xml_node(NULL, XML_CIB_TAG_NVPAIR); crm_xml_add(xml_obj, XML_ATTR_ID, attr_id); crm_xml_add(xml_obj, XML_NVPAIR_ATTR_NAME, attr_name); crm_xml_add(xml_obj, XML_NVPAIR_ATTR_VALUE, attr_value); rc = cib_internal_op(the_cib, CIB_OP_DELETE, NULL, section, xml_obj, NULL, options | cib_quorum_override, user_name); if (rc == pcmk_ok) { attr_msg(LOG_DEBUG, "Deleted %s %s: id=%s%s%s%s%s\n", section, node_uuid ? "attribute" : "option", local_attr_id, set_name ? " set=" : "", set_name ? set_name : "", attr_name ? " name=" : "", attr_name ? attr_name : ""); } free(local_attr_id); free_xml(xml_obj); return rc; } /*! * \internal * \brief Parse node UUID from search result * * \param[in] result XML search result * \param[out] uuid If non-NULL, where to store parsed UUID * \param[out] is_remote If non-NULL, set TRUE if result is remote node * * \return pcmk_ok if UUID was successfully parsed, -ENXIO otherwise */ static int get_uuid_from_result(xmlNode *result, char **uuid, int *is_remote) { int rc = -ENXIO; const char *tag; const char *parsed_uuid = NULL; int parsed_is_remote = FALSE; if (result == NULL) { return rc; } /* If there are multiple results, the first is sufficient */ tag = (const char *) (result->name); if (safe_str_eq(tag, "xpath-query")) { result = __xml_first_child(result); tag = (const char *) (result->name); } if (safe_str_eq(tag, XML_CIB_TAG_NODE)) { /* Result is tag from section */ if (safe_str_eq(crm_element_value(result, XML_ATTR_TYPE), "remote")) { parsed_uuid = crm_element_value(result, XML_ATTR_UNAME); parsed_is_remote = TRUE; } else { parsed_uuid = ID(result); parsed_is_remote = FALSE; } } else if (safe_str_eq(tag, XML_CIB_TAG_RESOURCE)) { /* Result is for ocf:pacemaker:remote resource */ parsed_uuid = ID(result); parsed_is_remote = TRUE; } else if (safe_str_eq(tag, XML_CIB_TAG_NVPAIR)) { /* Result is remote-node parameter of for guest node */ parsed_uuid = crm_element_value(result, XML_NVPAIR_ATTR_VALUE); parsed_is_remote = TRUE; } else if (safe_str_eq(tag, XML_CIB_TAG_STATE)) { /* Result is tag from section */ parsed_uuid = crm_element_value(result, XML_ATTR_UNAME); crm_element_value_int(result, F_ATTRD_IS_REMOTE, &parsed_is_remote); } if (parsed_uuid) { if (uuid) { *uuid = strdup(parsed_uuid); } if (is_remote) { *is_remote = parsed_is_remote; } rc = pcmk_ok; } return rc; } /* Search string to find a node by name, as: * - cluster or remote node in nodes section * - remote node in resources section * - guest node in resources section * - orphaned remote node in status section */ #define XPATH_NODE \ "/" XML_TAG_CIB "/" XML_CIB_TAG_CONFIGURATION "/" XML_CIB_TAG_NODES \ "/" XML_CIB_TAG_NODE "[@" XML_ATTR_UNAME "='%s']" \ "|/" XML_TAG_CIB "/" XML_CIB_TAG_CONFIGURATION "/" XML_CIB_TAG_RESOURCES \ "/" XML_CIB_TAG_RESOURCE \ "[@class='ocf'][@provider='pacemaker'][@type='remote'][@id='%s']" \ "|/" XML_TAG_CIB "/" XML_CIB_TAG_CONFIGURATION "/" XML_CIB_TAG_RESOURCES \ "/" XML_CIB_TAG_RESOURCE "/" XML_TAG_META_SETS "/" XML_CIB_TAG_NVPAIR \ "[@name='" XML_RSC_ATTR_REMOTE_NODE "'][@value='%s']" \ "|/" XML_TAG_CIB "/" XML_CIB_TAG_STATUS "/" XML_CIB_TAG_STATE \ "[@" XML_NODE_IS_REMOTE "='true'][@" XML_ATTR_UUID "='%s']" int query_node_uuid(cib_t * the_cib, const char *uname, char **uuid, int *is_remote_node) { int rc = pcmk_ok; char *xpath_string; xmlNode *xml_search = NULL; CRM_ASSERT(uname != NULL); if (uuid) { *uuid = NULL; } if (is_remote_node) { *is_remote_node = FALSE; } xpath_string = crm_strdup_printf(XPATH_NODE, uname, uname, uname, uname); if (cib_internal_op(the_cib, CIB_OP_QUERY, NULL, xpath_string, NULL, &xml_search, cib_sync_call|cib_scope_local|cib_xpath, NULL) == pcmk_ok) { rc = get_uuid_from_result(xml_search, uuid, is_remote_node); } else { rc = -ENXIO; } free(xpath_string); - free(xml_search); + free_xml(xml_search); if (rc != pcmk_ok) { crm_debug("Could not map node name '%s' to a UUID: %s", uname, pcmk_strerror(rc)); } else { crm_info("Mapped node name '%s' to UUID %s", uname, (uuid? *uuid : "")); } return rc; } int query_node_uname(cib_t * the_cib, const char *uuid, char **uname) { int rc = pcmk_ok; xmlNode *a_child = NULL; xmlNode *xml_obj = NULL; xmlNode *fragment = NULL; const char *child_name = NULL; CRM_ASSERT(uname != NULL); CRM_ASSERT(uuid != NULL); rc = the_cib->cmds->query(the_cib, XML_CIB_TAG_NODES, &fragment, cib_sync_call | cib_scope_local); if (rc != pcmk_ok) { return rc; } xml_obj = fragment; CRM_CHECK(safe_str_eq(crm_element_name(xml_obj), XML_CIB_TAG_NODES), return -ENOMSG); CRM_ASSERT(xml_obj != NULL); crm_log_xml_trace(xml_obj, "Result section"); rc = -ENXIO; *uname = NULL; for (a_child = __xml_first_child(xml_obj); a_child != NULL; a_child = __xml_next(a_child)) { if (crm_str_eq((const char *)a_child->name, XML_CIB_TAG_NODE, TRUE)) { child_name = ID(a_child); if (safe_str_eq(uuid, child_name)) { child_name = crm_element_value(a_child, XML_ATTR_UNAME); if (child_name != NULL) { *uname = strdup(child_name); rc = pcmk_ok; } break; } } } free_xml(fragment); return rc; } int set_standby(cib_t * the_cib, const char *uuid, const char *scope, const char *standby_value) { int rc = pcmk_ok; char *attr_id = NULL; CRM_CHECK(uuid != NULL, return -EINVAL); CRM_CHECK(standby_value != NULL, return -EINVAL); if (safe_str_eq(scope, "reboot") || safe_str_eq(scope, XML_CIB_TAG_STATUS)) { scope = XML_CIB_TAG_STATUS; attr_id = crm_strdup_printf("transient-standby-%.256s", uuid); } else { scope = XML_CIB_TAG_NODES; attr_id = crm_strdup_printf("standby-%.256s", uuid); } rc = update_attr_delegate(the_cib, cib_sync_call, scope, uuid, NULL, NULL, attr_id, "standby", standby_value, TRUE, NULL, NULL); free(attr_id); return rc; }