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diff --git a/include/crm/common/xml_names_internal.h b/include/crm/common/xml_names_internal.h
index 3f4d86650c..bace91ebad 100644
--- a/include/crm/common/xml_names_internal.h
+++ b/include/crm/common/xml_names_internal.h
@@ -1,293 +1,295 @@
/*
* 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.
*/
#ifndef PCMK__CRM_COMMON_XML_NAMES_INTERNAL__H
#define PCMK__CRM_COMMON_XML_NAMES_INTERNAL__H
#ifdef __cplusplus
extern "C" {
#endif
/*
* XML element names used only by internal code
*/
#define PCMK__XE_ACK "ack"
#define PCMK__XE_ACTION_SET "action_set"
#define PCMK__XE_ATTRIBUTES "attributes"
#define PCMK__XE_CIB_CALLBACK "cib-callback"
#define PCMK__XE_CIB_CALLDATA "cib_calldata"
#define PCMK__XE_CIB_COMMAND "cib_command"
#define PCMK__XE_CIB_REPLY "cib-reply"
#define PCMK__XE_CIB_RESULT "cib_result"
#define PCMK__XE_CIB_TRANSACTION "cib_transaction"
#define PCMK__XE_CIB_UPDATE_RESULT "cib_update_result"
#define PCMK__XE_COPY "copy"
#define PCMK__XE_CRM_EVENT "crm_event"
#define PCMK__XE_CRM_XML "crm_xml"
#define PCMK__XE_DIV "div"
#define PCMK__XE_DOWNED "downed"
#define PCMK__XE_EXIT_NOTIFICATION "exit-notification"
#define PCMK__XE_FAILED_UPDATE "failed_update"
#define PCMK__XE_GENERATION_TUPLE "generation_tuple"
#define PCMK__XE_INPUTS "inputs"
#define PCMK__XE_LRM "lrm"
#define PCMK__XE_LRM_RESOURCE "lrm_resource"
#define PCMK__XE_LRM_RESOURCES "lrm_resources"
#define PCMK__XE_LRM_RSC_OP "lrm_rsc_op"
#define PCMK__XE_LRMD_ALERT "lrmd_alert"
#define PCMK__XE_LRMD_CALLDATA "lrmd_calldata"
#define PCMK__XE_LRMD_COMMAND "lrmd_command"
#define PCMK__XE_LRMD_IPC_MSG "lrmd_ipc_msg"
#define PCMK__XE_LRMD_IPC_PROXY "lrmd_ipc_proxy"
#define PCMK__XE_LRMD_NOTIFY "lrmd_notify"
#define PCMK__XE_LRMD_REPLY "lrmd_reply"
#define PCMK__XE_LRMD_RSC "lrmd_rsc"
#define PCMK__XE_LRMD_RSC_OP "lrmd_rsc_op"
#define PCMK__XE_MAINTENANCE "maintenance"
#define PCMK__XE_MESSAGE "message"
#define PCMK__XE_META "meta"
#define PCMK__XE_NACK "nack"
#define PCMK__XE_NODE_STATE "node_state"
#define PCMK__XE_NOTIFY "notify"
#define PCMK__XE_OPTIONS "options"
#define PCMK__XE_PARAM "param"
#define PCMK__XE_PING "ping"
#define PCMK__XE_PING_RESPONSE "ping_response"
#define PCMK__XE_PSEUDO_EVENT "pseudo_event"
#define PCMK__XE_RESOURCE_SETTINGS "resource-settings"
#define PCMK__XE_RSC_OP "rsc_op"
#define PCMK__XE_SHUTDOWN "shutdown"
#define PCMK__XE_SPAN "span"
#define PCMK__XE_ST_ASYNC_TIMEOUT_VALUE "st-async-timeout-value"
#define PCMK__XE_ST_CALLDATA "st_calldata"
#define PCMK__XE_ST_DEVICE_ACTION "st_device_action"
#define PCMK__XE_ST_DEVICE_ID "st_device_id"
#define PCMK__XE_ST_HISTORY "st_history"
#define PCMK__XE_ST_NOTIFY_FENCE "st_notify_fence"
#define PCMK__XE_ST_REPLY "st-reply"
#define PCMK__XE_STONITH_COMMAND "stonith_command"
#define PCMK__XE_SYNAPSE "synapse"
#define PCMK__XE_TICKET_STATE "ticket_state"
#define PCMK__XE_TRANSIENT_ATTRIBUTES "transient_attributes"
#define PCMK__XE_TRANSITION_GRAPH "transition_graph"
#define PCMK__XE_TRIGGER "trigger"
#define PCMK__XE_XPATH_QUERY "xpath-query"
#define PCMK__XE_XPATH_QUERY_PATH "xpath-query-path"
/* @COMPAT Deprecate somehow. It's undocumented and behaves the same as
* PCMK__XE_CIB in places where it's recognized.
*/
#define PCMK__XE_ALL "all"
// @COMPAT Deprecated since 2.1.8
#define PCMK__XE_FAILED "failed"
/*
* XML attribute names used only by internal code
*/
#define PCMK__XA_ACL_TARGET "acl_target"
#define PCMK__XA_ATTR_CLEAR_INTERVAL "attr_clear_interval"
#define PCMK__XA_ATTR_CLEAR_OPERATION "attr_clear_operation"
#define PCMK__XA_ATTR_DAMPENING "attr_dampening"
#define PCMK__XA_ATTR_HOST "attr_host"
#define PCMK__XA_ATTR_HOST_ID "attr_host_id"
#define PCMK__XA_ATTR_IS_PRIVATE "attr_is_private"
#define PCMK__XA_ATTR_IS_REMOTE "attr_is_remote"
#define PCMK__XA_ATTR_NAME "attr_name"
#define PCMK__XA_ATTR_REGEX "attr_regex"
#define PCMK__XA_ATTR_RESOURCE "attr_resource"
#define PCMK__XA_ATTR_SECTION "attr_section"
#define PCMK__XA_ATTR_SET "attr_set"
#define PCMK__XA_ATTR_SET_TYPE "attr_set_type"
#define PCMK__XA_ATTR_SYNC_POINT "attr_sync_point"
#define PCMK__XA_ATTR_USER "attr_user"
#define PCMK__XA_ATTR_VALUE "attr_value"
#define PCMK__XA_ATTR_VERSION "attr_version"
#define PCMK__XA_ATTR_WRITER "attr_writer"
#define PCMK__XA_ATTRD_IS_FORCE_WRITE "attrd_is_force_write"
#define PCMK__XA_CALL_ID "call-id"
#define PCMK__XA_CIB_CALLID "cib_callid"
#define PCMK__XA_CIB_CALLOPT "cib_callopt"
#define PCMK__XA_CIB_CLIENTID "cib_clientid"
#define PCMK__XA_CIB_CLIENTNAME "cib_clientname"
#define PCMK__XA_CIB_DELEGATED_FROM "cib_delegated_from"
#define PCMK__XA_CIB_HOST "cib_host"
#define PCMK__XA_CIB_ISREPLYTO "cib_isreplyto"
#define PCMK__XA_CIB_NOTIFY_ACTIVATE "cib_notify_activate"
#define PCMK__XA_CIB_NOTIFY_TYPE "cib_notify_type"
#define PCMK__XA_CIB_OP "cib_op"
#define PCMK__XA_CIB_PING_ID "cib_ping_id"
#define PCMK__XA_CIB_RC "cib_rc"
#define PCMK__XA_CIB_SCHEMA_MAX "cib_schema_max"
#define PCMK__XA_CIB_SECTION "cib_section"
#define PCMK__XA_CIB_UPDATE "cib_update"
#define PCMK__XA_CIB_UPGRADE_RC "cib_upgrade_rc"
#define PCMK__XA_CIB_USER "cib_user"
#define PCMK__XA_CLIENT_NAME "client_name"
#define PCMK__XA_CLIENT_UUID "client_uuid"
#define PCMK__XA_CONFIRM "confirm"
#define PCMK__XA_CONNECTION_HOST "connection_host"
#define PCMK__XA_CONTENT "content"
#define PCMK__XA_CRMD_STATE "crmd_state"
#define PCMK__XA_CRM_HOST_TO "crm_host_to"
#define PCMK__XA_CRM_LIMIT_MAX "crm-limit-max"
#define PCMK__XA_CRM_LIMIT_MODE "crm-limit-mode"
#define PCMK__XA_CRM_SUBSYSTEM "crm_subsystem"
#define PCMK__XA_CRM_SYS_FROM "crm_sys_from"
#define PCMK__XA_CRM_SYS_TO "crm_sys_to"
#define PCMK__XA_CRM_TASK "crm_task"
#define PCMK__XA_CRM_TGRAPH_IN "crm-tgraph-in"
#define PCMK__XA_CRM_USER "crm_user"
#define PCMK__XA_DC_LEAVING "dc-leaving"
#define PCMK__XA_DIGEST "digest"
#define PCMK__XA_ELECTION_AGE_SEC "election-age-sec"
#define PCMK__XA_ELECTION_AGE_NANO_SEC "election-age-nano-sec"
#define PCMK__XA_ELECTION_ID "election-id"
#define PCMK__XA_ELECTION_OWNER "election-owner"
+#define PCMK__XA_FAILED_START_OFFSET "failed-start-offset"
+#define PCMK__XA_FAILED_STOP_OFFSET "failed-stop-offset"
#define PCMK__XA_GRANTED "granted"
#define PCMK__XA_HIDDEN "hidden"
#define PCMK__XA_HTTP_EQUIV "http-equiv"
#define PCMK__XA_IN_CCM "in_ccm"
#define PCMK__XA_IPC_PROTO_VERSION "ipc-protocol-version"
#define PCMK__XA_JOIN "join"
#define PCMK__XA_JOIN_ID "join_id"
#define PCMK__XA_LINE "line"
#define PCMK__XA_LONG_ID "long-id"
#define PCMK__XA_LRMD_ALERT_ID "lrmd_alert_id"
#define PCMK__XA_LRMD_ALERT_PATH "lrmd_alert_path"
#define PCMK__XA_LRMD_CALLID "lrmd_callid"
#define PCMK__XA_LRMD_CALLOPT "lrmd_callopt"
#define PCMK__XA_LRMD_CLASS "lrmd_class"
#define PCMK__XA_LRMD_CLIENTID "lrmd_clientid"
#define PCMK__XA_LRMD_CLIENTNAME "lrmd_clientname"
#define PCMK__XA_LRMD_EXEC_OP_STATUS "lrmd_exec_op_status"
#define PCMK__XA_LRMD_EXEC_RC "lrmd_exec_rc"
#define PCMK__XA_LRMD_EXEC_TIME "lrmd_exec_time"
#define PCMK__XA_LRMD_IPC_CLIENT "lrmd_ipc_client"
#define PCMK__XA_LRMD_IPC_MSG_FLAGS "lrmd_ipc_msg_flags"
#define PCMK__XA_LRMD_IPC_MSG_ID "lrmd_ipc_msg_id"
#define PCMK__XA_LRMD_IPC_OP "lrmd_ipc_op"
#define PCMK__XA_LRMD_IPC_SERVER "lrmd_ipc_server"
#define PCMK__XA_LRMD_IPC_SESSION "lrmd_ipc_session"
#define PCMK__XA_LRMD_IPC_USER "lrmd_ipc_user"
#define PCMK__XA_LRMD_IS_IPC_PROVIDER "lrmd_is_ipc_provider"
#define PCMK__XA_LRMD_OP "lrmd_op"
#define PCMK__XA_LRMD_ORIGIN "lrmd_origin"
#define PCMK__XA_LRMD_PROTOCOL_VERSION "lrmd_protocol_version"
#define PCMK__XA_LRMD_PROVIDER "lrmd_provider"
#define PCMK__XA_LRMD_QUEUE_TIME "lrmd_queue_time"
#define PCMK__XA_LRMD_RC "lrmd_rc"
#define PCMK__XA_LRMD_RCCHANGE_TIME "lrmd_rcchange_time"
#define PCMK__XA_LRMD_REMOTE_MSG_ID "lrmd_remote_msg_id"
#define PCMK__XA_LRMD_REMOTE_MSG_TYPE "lrmd_remote_msg_type"
#define PCMK__XA_LRMD_RSC_ACTION "lrmd_rsc_action"
#define PCMK__XA_LRMD_RSC_DELETED "lrmd_rsc_deleted"
#define PCMK__XA_LRMD_RSC_EXIT_REASON "lrmd_rsc_exit_reason"
#define PCMK__XA_LRMD_RSC_ID "lrmd_rsc_id"
#define PCMK__XA_LRMD_RSC_INTERVAL "lrmd_rsc_interval"
#define PCMK__XA_LRMD_RSC_OUTPUT "lrmd_rsc_output"
#define PCMK__XA_LRMD_RSC_START_DELAY "lrmd_rsc_start_delay"
#define PCMK__XA_LRMD_RSC_USERDATA_STR "lrmd_rsc_userdata_str"
#define PCMK__XA_LRMD_RUN_TIME "lrmd_run_time"
#define PCMK__XA_LRMD_TIMEOUT "lrmd_timeout"
#define PCMK__XA_LRMD_TYPE "lrmd_type"
#define PCMK__XA_LRMD_WATCHDOG "lrmd_watchdog"
#define PCMK__XA_MAJOR_VERSION "major_version"
#define PCMK__XA_MINOR_VERSION "minor_version"
#define PCMK__XA_MODE "mode"
#define PCMK__XA_NAMESPACE "namespace"
#define PCMK__XA_NODE_FENCED "node_fenced"
#define PCMK__XA_NODE_IN_MAINTENANCE "node_in_maintenance"
#define PCMK__XA_NODE_START_STATE "node_start_state"
#define PCMK__XA_NODE_STATE "node_state"
#define PCMK__XA_OP_DIGEST "op-digest"
#define PCMK__XA_OP_FORCE_RESTART "op-force-restart"
#define PCMK__XA_OP_RESTART_DIGEST "op-restart-digest"
#define PCMK__XA_OP_SECURE_DIGEST "op-secure-digest"
#define PCMK__XA_OP_SECURE_PARAMS "op-secure-params"
#define PCMK__XA_OP_STATUS "op-status"
#define PCMK__XA_OPERATION_KEY "operation_key"
#define PCMK__XA_ORIGINAL_CIB_OP "original_cib_op"
#define PCMK__XA_PACEMAKERD_STATE "pacemakerd_state"
#define PCMK__XA_PASSWORD "password"
#define PCMK__XA_PRIORITY "priority"
#define PCMK__XA_RC_CODE "rc-code"
#define PCMK__XA_REAP "reap"
/* Actions to be executed on Pacemaker Remote nodes are routed through the
* controller on the cluster node hosting the remote connection. That cluster
* node is considered the router node for the action.
*/
#define PCMK__XA_ROUTER_NODE "router_node"
#define PCMK__XA_RSC_ID "rsc-id"
#define PCMK__XA_RSC_PROVIDES "rsc_provides"
#define PCMK__XA_SCHEMA "schema"
#define PCMK__XA_SCHEMAS "schemas"
#define PCMK__XA_SET "set"
#define PCMK__XA_SRC "src"
#define PCMK__XA_ST_ACTION_DISALLOWED "st_action_disallowed"
#define PCMK__XA_ST_ACTION_TIMEOUT "st_action_timeout"
#define PCMK__XA_ST_AVAILABLE_DEVICES "st-available-devices"
#define PCMK__XA_ST_CALLID "st_callid"
#define PCMK__XA_ST_CALLOPT "st_callopt"
#define PCMK__XA_ST_CLIENTID "st_clientid"
#define PCMK__XA_ST_CLIENTNAME "st_clientname"
#define PCMK__XA_ST_CLIENTNODE "st_clientnode"
#define PCMK__XA_ST_DATE "st_date"
#define PCMK__XA_ST_DATE_NSEC "st_date_nsec"
#define PCMK__XA_ST_DELAY "st_delay"
#define PCMK__XA_ST_DELAY_BASE "st_delay_base"
#define PCMK__XA_ST_DELAY_MAX "st_delay_max"
#define PCMK__XA_ST_DELEGATE "st_delegate"
#define PCMK__XA_ST_DEVICE_ACTION "st_device_action"
#define PCMK__XA_ST_DEVICE_ID "st_device_id"
#define PCMK__XA_ST_DEVICE_SUPPORT_FLAGS "st_device_support_flags"
#define PCMK__XA_ST_DIFFERENTIAL "st_differential"
#define PCMK__XA_ST_MONITOR_VERIFIED "st_monitor_verified"
#define PCMK__XA_ST_NOTIFY_ACTIVATE "st_notify_activate"
#define PCMK__XA_ST_NOTIFY_DEACTIVATE "st_notify_deactivate"
#define PCMK__XA_ST_OP "st_op"
#define PCMK__XA_ST_OP_MERGED "st_op_merged"
#define PCMK__XA_ST_ORIGIN "st_origin"
#define PCMK__XA_ST_OUTPUT "st_output"
#define PCMK__XA_ST_RC "st_rc"
#define PCMK__XA_ST_REMOTE_OP "st_remote_op"
#define PCMK__XA_ST_REMOTE_OP_RELAY "st_remote_op_relay"
#define PCMK__XA_ST_REQUIRED "st_required"
#define PCMK__XA_ST_STATE "st_state"
#define PCMK__XA_ST_TARGET "st_target"
#define PCMK__XA_ST_TIMEOUT "st_timeout"
#define PCMK__XA_ST_TOLERANCE "st_tolerance"
#define PCMK__XA_SUBT "subt" // subtype
#define PCMK__XA_T "t" // type
#define PCMK__XA_TRANSITION_KEY "transition-key"
#define PCMK__XA_TRANSITION_MAGIC "transition-magic"
#define PCMK__XA_UPTIME "uptime"
// @COMPAT Deprecated since 2.1.7
#define PCMK__XA_ORDERING "ordering"
// @COMPAT Deprecated alias for PCMK_XA_PROMOTED_ONLY since 2.0.0
#define PCMK__XA_PROMOTED_ONLY_LEGACY "master_only"
// @COMPAT Deprecated since 2.1.6
#define PCMK__XA_REPLACE "replace"
// @COMPAT Deprecated alias for \c PCMK_XA_AUTOMATIC since 1.1.14
#define PCMK__XA_REQUIRED "required"
#ifdef __cplusplus
}
#endif
#endif // PCMK__CRM_COMMON_XML_NAMES_INTERNAL__H
diff --git a/lib/pacemaker/libpacemaker_private.h b/lib/pacemaker/libpacemaker_private.h
index de58ec60a6..58435a6217 100644
--- a/lib/pacemaker/libpacemaker_private.h
+++ b/lib/pacemaker/libpacemaker_private.h
@@ -1,1141 +1,1142 @@
/*
* Copyright 2021-2024 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.
*/
#ifndef PCMK__PACEMAKER_LIBPACEMAKER_PRIVATE__H
#define PCMK__PACEMAKER_LIBPACEMAKER_PRIVATE__H
/* This header is for the sole use of libpacemaker, so that functions can be
* declared with G_GNUC_INTERNAL for efficiency.
*/
#include <stdio.h> // NULL
#include <stdint.h> // uint32_t
#include <stdbool.h> // bool, false
#include <glib.h> // guint, gpointer, GList, GHashTable
#include <libxml/tree.h> // xmlNode
#include <crm/common/scheduler.h> // pcmk_action_t, pcmk_node_t, etc.
#include <crm/common/scheduler_internal.h> // pcmk__location_t, etc.
#include <crm/cib.h> // cib_t
#include <crm/lrmd_events.h> // lrmd_event_data_t
#include <crm/pengine/internal.h> // pe__const_top_resource(), etc.
#include <pacemaker.h> // pcmk_injections_t
#include <pacemaker-internal.h> // pcmk__colocation_t
#ifdef __cplusplus
extern "C" {
#endif
// Colocation flags
enum pcmk__coloc_flags {
pcmk__coloc_none = 0U,
// Primary is affected even if already active
pcmk__coloc_influence = (1U << 0),
// Colocation was explicitly configured in CIB
pcmk__coloc_explicit = (1U << 1),
};
// Flags to modify the behavior of add_colocated_node_scores()
enum pcmk__coloc_select {
// With no other flags, apply all "with this" colocations
pcmk__coloc_select_default = 0,
// Apply "this with" colocations instead of "with this" colocations
pcmk__coloc_select_this_with = (1 << 0),
// Apply only colocations with non-negative scores
pcmk__coloc_select_nonnegative = (1 << 1),
// Apply only colocations with at least one matching node
pcmk__coloc_select_active = (1 << 2),
};
// Flags the update_ordered_actions() method can return
enum pcmk__updated {
pcmk__updated_none = 0, // Nothing changed
pcmk__updated_first = (1 << 0), // First action was updated
pcmk__updated_then = (1 << 1), // Then action was updated
};
#define pcmk__set_updated_flags(au_flags, action, flags_to_set) do { \
au_flags = pcmk__set_flags_as(__func__, __LINE__, \
LOG_TRACE, "Action update", \
(action)->uuid, au_flags, \
(flags_to_set), #flags_to_set); \
} while (0)
#define pcmk__clear_updated_flags(au_flags, action, flags_to_clear) do { \
au_flags = pcmk__clear_flags_as(__func__, __LINE__, \
LOG_TRACE, "Action update", \
(action)->uuid, au_flags, \
(flags_to_clear), #flags_to_clear); \
} while (0)
// Resource assignment methods
struct pcmk__assignment_methods {
/*!
* \internal
* \brief Assign a 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 (if \p rsc is not a
* primitive, this applies to its primitive
* descendants instead)
*
* \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 *(*assign)(pcmk_resource_t *rsc, const pcmk_node_t *prefer,
bool stop_if_fail);
/*!
* \internal
* \brief Create all actions needed for a given resource
*
* \param[in,out] rsc Resource to create actions for
*/
void (*create_actions)(pcmk_resource_t *rsc);
/*!
* \internal
* \brief Schedule any probes needed for a resource on a node
*
* \param[in,out] rsc Resource to create probe for
* \param[in,out] node Node to create probe on
*
* \return true if any probe was created, otherwise false
*/
bool (*create_probe)(pcmk_resource_t *rsc, pcmk_node_t *node);
/*!
* \internal
* \brief Create implicit constraints needed for a resource
*
* \param[in,out] rsc Resource to create implicit constraints for
*/
void (*internal_constraints)(pcmk_resource_t *rsc);
/*!
* \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 (*apply_coloc_score)(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
bool for_dependent);
/*!
* \internal
* \brief Create list of all resources in colocations with a given resource
*
* Given a resource, create a list of all resources involved in mandatory
* colocations with it, whether directly or via chained colocations.
*
* \param[in] rsc Resource to add to colocated list
* \param[in] orig_rsc Resource originally requested
* \param[in,out] colocated_rscs Existing list
*
* \return List of given resource and all resources involved in colocations
*
* \note This function is recursive; top-level callers should pass NULL as
* \p colocated_rscs and \p orig_rsc, and the desired resource as
* \p rsc. The recursive calls will use other values.
*/
GList *(*colocated_resources)(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *colocated_rscs);
/*!
* \internal
* \brief Add colocations affecting a resource as primary to a list
*
* Given a resource being assigned (\p orig_rsc) and a resource somewhere in
* its chain of ancestors (\p rsc, which may be \p orig_rsc), get
* colocations that affect the ancestor as primary and should affect the
* resource, and add them to a given list.
*
* \param[in] rsc Resource whose colocations should be added
* \param[in] orig_rsc Affected resource (\p rsc or a descendant)
* \param[in,out] list List of colocations to add to
*
* \note All arguments should be non-NULL.
* \note The pcmk__with_this_colocations() wrapper should usually be used
* instead of using this method directly.
*/
void (*with_this_colocations)(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
/*!
* \internal
* \brief Add colocations affecting a resource as dependent to a list
*
* Given a resource being assigned (\p orig_rsc) and a resource somewhere in
* its chain of ancestors (\p rsc, which may be \p orig_rsc), get
* colocations that affect the ancestor as dependent and should affect the
* resource, and add them to a given list.
*
*
* \param[in] rsc Resource whose colocations should be added
* \param[in] orig_rsc Affected resource (\p rsc or a descendant)
* \param[in,out] list List of colocations to add to
*
* \note All arguments should be non-NULL.
* \note The pcmk__this_with_colocations() wrapper should usually be used
* instead of using this method directly.
*/
void (*this_with_colocations)(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
/*!
* \internal
* \brief Update nodes with scores of colocated resources' nodes
*
* Given a table of nodes and a resource, update the nodes' scores with the
* scores of the best nodes matching the attribute used for each of the
* resource's relevant colocations.
*
* \param[in,out] source_rsc Resource whose node scores to add
* \param[in] target_rsc Resource on whose behalf to update \p *nodes
* \param[in] log_id Resource ID for logs (if \c NULL, use
* \p source_rsc ID)
* \param[in,out] nodes Nodes to update (set initial contents to
* \c NULL to copy allowed nodes from
* \p source_rsc)
* \param[in] colocation Original colocation constraint (used to get
* configured primary resource's stickiness, and
* to get colocation node attribute; if \c NULL,
* <tt>source_rsc</tt>'s own matching node scores
* will not be added, and \p *nodes must be
* \c NULL as well)
* \param[in] factor Incorporate scores multiplied by this factor
* \param[in] flags Bitmask of enum pcmk__coloc_select values
*
* \note \c NULL \p target_rsc, \c NULL \p *nodes, \c NULL \p colocation,
* and the \c pcmk__coloc_select_this_with flag are used together (and
* only by \c cmp_resources()).
* \note The caller remains responsible for freeing \p *nodes.
*/
void (*add_colocated_node_scores)(pcmk_resource_t *source_rsc,
const pcmk_resource_t *target_rsc,
const char *log_id, GHashTable **nodes,
const pcmk__colocation_t *colocation,
float factor, uint32_t flags);
/*!
* \internal
* \brief Apply a location constraint to a resource's allowed node scores
*
* \param[in,out] rsc Resource to apply constraint to
* \param[in,out] location Location constraint to apply
*/
void (*apply_location)(pcmk_resource_t *rsc, pcmk__location_t *location);
/*!
* \internal
* \brief Return action flags for a given resource action
*
* \param[in,out] action Action to get flags for
* \param[in] node If not NULL, limit effects to this node
*
* \return Flags appropriate to \p action on \p node
* \note For primitives, this will be the same as action->flags regardless
* of node. For collective resources, the flags can differ due to
* multiple instances possibly being involved.
*/
uint32_t (*action_flags)(pcmk_action_t *action, const pcmk_node_t *node);
/*!
* \internal
* \brief Update two actions according to an ordering between them
*
* Given information about an ordering of two actions, update the actions'
* flags (and runnable_before members if appropriate) as appropriate for the
* ordering. Effects may cascade to other orderings involving the actions as
* well.
*
* \param[in,out] first 'First' action in an ordering
* \param[in,out] then 'Then' action in an ordering
* \param[in] node If not NULL, limit scope of ordering to this
* node (only used when interleaving instances)
* \param[in] flags Action flags for \p first for ordering purposes
* \param[in] filter Action flags to limit scope of certain updates
* (may include pcmk__action_optional to affect
* only mandatory actions and
* pcmk__action_runnable to affect only runnable
* actions)
* \param[in] type Group of enum pcmk__action_relation_flags
* \param[in,out] scheduler Scheduler data
*
* \return Group of enum pcmk__updated flags indicating what was updated
*/
uint32_t (*update_ordered_actions)(pcmk_action_t *first,
pcmk_action_t *then,
const pcmk_node_t *node, uint32_t flags,
uint32_t filter, uint32_t type,
pcmk_scheduler_t *scheduler);
/*!
* \internal
* \brief Output a summary of scheduled actions for a resource
*
* \param[in,out] rsc Resource to output actions for
*/
void (*output_actions)(pcmk_resource_t *rsc);
/*!
* \internal
* \brief Add a resource's actions to the transition graph
*
* \param[in,out] rsc Resource whose actions should be added
*/
void (*add_actions_to_graph)(pcmk_resource_t *rsc);
/*!
* \internal
* \brief Add meta-attributes relevant to transition graph actions to XML
*
* If a given resource supports variant-specific meta-attributes that are
* needed for transition graph actions, add them to a given XML element.
*
* \param[in] rsc Resource whose meta-attributes should be added
* \param[in,out] xml Transition graph action attributes XML to add to
*/
void (*add_graph_meta)(const pcmk_resource_t *rsc, xmlNode *xml);
/*!
* \internal
* \brief Add a resource's utilization to a table of utilization values
*
* This function is used when summing the utilization of a resource and all
* resources colocated with it, to determine whether a node has sufficient
* capacity. Given a resource and a table of utilization values, it will add
* the resource's utilization to the existing values, if the resource has
* not yet been assigned to a node.
*
* \param[in] rsc Resource with utilization to add
* \param[in] orig_rsc Resource being assigned (for logging only)
* \param[in] all_rscs List of all resources that will be summed
* \param[in,out] utilization Table of utilization values to add to
*/
void (*add_utilization)(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc, GList *all_rscs,
GHashTable *utilization);
/*!
* \internal
* \brief Apply a shutdown lock for a resource, if appropriate
*
* \param[in,out] rsc Resource to check for shutdown lock
*/
void (*shutdown_lock)(pcmk_resource_t *rsc);
};
// Actions (pcmk_sched_actions.c)
G_GNUC_INTERNAL
void pcmk__update_action_for_orderings(pcmk_action_t *action,
pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
uint32_t pcmk__update_ordered_actions(pcmk_action_t *first, pcmk_action_t *then,
const pcmk_node_t *node, uint32_t flags,
uint32_t filter, uint32_t type,
pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__log_action(const char *pre_text, const pcmk_action_t *action,
bool details);
G_GNUC_INTERNAL
pcmk_action_t *pcmk__new_cancel_action(pcmk_resource_t *rsc, const char *name,
guint interval_ms,
const pcmk_node_t *node);
G_GNUC_INTERNAL
pcmk_action_t *pcmk__new_shutdown_action(pcmk_node_t *node);
G_GNUC_INTERNAL
bool pcmk__action_locks_rsc_to_node(const pcmk_action_t *action);
G_GNUC_INTERNAL
void pcmk__deduplicate_action_inputs(pcmk_action_t *action);
G_GNUC_INTERNAL
void pcmk__output_actions(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
bool pcmk__check_action_config(pcmk_resource_t *rsc, pcmk_node_t *node,
const xmlNode *xml_op);
G_GNUC_INTERNAL
void pcmk__handle_rsc_config_changes(pcmk_scheduler_t *scheduler);
// Recurring actions (pcmk_sched_recurring.c)
G_GNUC_INTERNAL
void pcmk__create_recurring_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__schedule_cancel(pcmk_resource_t *rsc, const char *call_id,
const char *task, guint interval_ms,
const pcmk_node_t *node, const char *reason);
G_GNUC_INTERNAL
void pcmk__reschedule_recurring(pcmk_resource_t *rsc, const char *task,
guint interval_ms, pcmk_node_t *node);
G_GNUC_INTERNAL
bool pcmk__action_is_recurring(const pcmk_action_t *action);
// Producing transition graphs (pcmk_graph_producer.c)
G_GNUC_INTERNAL
bool pcmk__graph_has_loop(const pcmk_action_t *init_action,
const pcmk_action_t *action,
pcmk__related_action_t *input);
G_GNUC_INTERNAL
void pcmk__add_rsc_actions_to_graph(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__create_graph(pcmk_scheduler_t *scheduler);
// Fencing (pcmk_sched_fencing.c)
G_GNUC_INTERNAL
void pcmk__order_vs_fence(pcmk_action_t *stonith_op,
pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__order_vs_unfence(const pcmk_resource_t *rsc, pcmk_node_t *node,
pcmk_action_t *action,
enum pcmk__action_relation_flags order);
G_GNUC_INTERNAL
void pcmk__fence_guest(pcmk_node_t *node);
G_GNUC_INTERNAL
bool pcmk__node_unfenced(const pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__order_restart_vs_unfence(gpointer data, gpointer user_data);
// Injected scheduler inputs (pcmk_sched_injections.c)
G_GNUC_INTERNAL
void pcmk__inject_scheduler_input(pcmk_scheduler_t *scheduler, cib_t *cib,
const pcmk_injections_t *injections);
// Constraints of any type (pcmk_sched_constraints.c)
G_GNUC_INTERNAL
pcmk_resource_t *pcmk__find_constraint_resource(GList *rsc_list,
const char *id);
G_GNUC_INTERNAL
int pcmk__parse_constraint_role(const char *id, const char *role_spec,
enum rsc_role_e *role);
G_GNUC_INTERNAL
xmlNode *pcmk__expand_tags_in_sets(xmlNode *xml_obj,
const pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
bool pcmk__valid_resource_or_tag(const pcmk_scheduler_t *scheduler,
const char *id, pcmk_resource_t **rsc,
pcmk__idref_t **tag);
G_GNUC_INTERNAL
bool pcmk__tag_to_set(xmlNode *xml_obj, xmlNode **rsc_set, const char *attr,
bool convert_rsc, const pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__create_internal_constraints(pcmk_scheduler_t *scheduler);
// Location constraints
G_GNUC_INTERNAL
void pcmk__unpack_location(xmlNode *xml_obj, pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
pcmk__location_t *pcmk__new_location(const char *id, pcmk_resource_t *rsc,
int node_score, const char *discover_mode,
pcmk_node_t *foo_node);
G_GNUC_INTERNAL
void pcmk__apply_locations(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__apply_location(pcmk_resource_t *rsc, pcmk__location_t *constraint);
// Colocation constraints (pcmk_sched_colocation.c)
enum pcmk__coloc_affects {
pcmk__coloc_affects_nothing = 0,
pcmk__coloc_affects_location,
pcmk__coloc_affects_role,
};
G_GNUC_INTERNAL
const char *pcmk__colocation_node_attr(const pcmk_node_t *node,
const char *attr,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
enum pcmk__coloc_affects pcmk__colocation_affects(const pcmk_resource_t
*dependent,
const pcmk_resource_t
*primary,
const pcmk__colocation_t
*colocation,
bool preview);
G_GNUC_INTERNAL
void pcmk__apply_coloc_to_scores(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation);
G_GNUC_INTERNAL
int pcmk__apply_coloc_to_priority(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation);
G_GNUC_INTERNAL
void pcmk__add_colocated_node_scores(pcmk_resource_t *source_rsc,
const pcmk_resource_t *target_rsc,
const char *log_id, GHashTable **nodes,
const pcmk__colocation_t *colocation,
float factor, uint32_t flags);
G_GNUC_INTERNAL
void pcmk__add_dependent_scores(gpointer data, gpointer user_data);
G_GNUC_INTERNAL
void pcmk__colocation_intersect_nodes(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
const GList *primary_nodes,
bool merge_scores);
G_GNUC_INTERNAL
void pcmk__unpack_colocation(xmlNode *xml_obj, pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__add_this_with(GList **list, const pcmk__colocation_t *colocation,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__add_this_with_list(GList **list, GList *addition,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__add_with_this(GList **list, const pcmk__colocation_t *colocation,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__add_with_this_list(GList **list, GList *addition,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
GList *pcmk__with_this_colocations(const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
GList *pcmk__this_with_colocations(const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__new_colocation(const char *id, const char *node_attr, int score,
pcmk_resource_t *dependent, pcmk_resource_t *primary,
const char *dependent_role_spec,
const char *primary_role_spec, uint32_t flags);
G_GNUC_INTERNAL
void pcmk__block_colocation_dependents(pcmk_action_t *action);
G_GNUC_INTERNAL
bool pcmk__colocation_has_influence(const pcmk__colocation_t *colocation,
const pcmk_resource_t *rsc);
// Ordering constraints (pcmk_sched_ordering.c)
G_GNUC_INTERNAL
void pcmk__new_ordering(pcmk_resource_t *first_rsc, char *first_task,
pcmk_action_t *first_action, pcmk_resource_t *then_rsc,
char *then_task, pcmk_action_t *then_action,
uint32_t flags, pcmk_scheduler_t *sched);
G_GNUC_INTERNAL
void pcmk__unpack_ordering(xmlNode *xml_obj, pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__disable_invalid_orderings(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
void pcmk__order_stops_before_shutdown(pcmk_node_t *node,
pcmk_action_t *shutdown_op);
G_GNUC_INTERNAL
void pcmk__apply_orderings(pcmk_scheduler_t *sched);
G_GNUC_INTERNAL
void pcmk__order_after_each(pcmk_action_t *after, GList *list);
/*!
* \internal
* \brief Create a new ordering between two resource actions
*
* \param[in,out] first_rsc Resource for 'first' action
* \param[in,out] first_task Action key for 'first' action
* \param[in] then_rsc Resource for 'then' action
* \param[in,out] then_task Action key for 'then' action
* \param[in] flags Group of enum pcmk__action_relation_flags
*/
#define pcmk__order_resource_actions(first_rsc, first_task, \
then_rsc, then_task, flags) \
pcmk__new_ordering((first_rsc), \
pcmk__op_key((first_rsc)->id, (first_task), 0), \
NULL, \
(then_rsc), \
pcmk__op_key((then_rsc)->id, (then_task), 0), \
NULL, (flags), (first_rsc)->priv->scheduler)
#define pcmk__order_starts(rsc1, rsc2, flags) \
pcmk__order_resource_actions((rsc1), PCMK_ACTION_START, \
(rsc2), PCMK_ACTION_START, (flags))
#define pcmk__order_stops(rsc1, rsc2, flags) \
pcmk__order_resource_actions((rsc1), PCMK_ACTION_STOP, \
(rsc2), PCMK_ACTION_STOP, (flags))
// Ticket constraints (pcmk_sched_tickets.c)
G_GNUC_INTERNAL
void pcmk__unpack_rsc_ticket(xmlNode *xml_obj, pcmk_scheduler_t *scheduler);
// Promotable clone resources (pcmk_sched_promotable.c)
G_GNUC_INTERNAL
void pcmk__add_promotion_scores(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__require_promotion_tickets(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__set_instance_roles(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__create_promotable_actions(pcmk_resource_t *clone);
G_GNUC_INTERNAL
void pcmk__promotable_restart_ordering(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__order_promotable_instances(pcmk_resource_t *clone);
G_GNUC_INTERNAL
void pcmk__update_dependent_with_promotable(const pcmk_resource_t *primary,
pcmk_resource_t *dependent,
const pcmk__colocation_t
*colocation);
G_GNUC_INTERNAL
int pcmk__update_promotable_dependent_priority(const pcmk_resource_t *primary,
pcmk_resource_t *dependent,
const pcmk__colocation_t
*colocation);
// Pacemaker Remote nodes (pcmk_sched_remote.c)
G_GNUC_INTERNAL
bool pcmk__is_failed_remote_node(const pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__order_remote_connection_actions(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
bool pcmk__rsc_corresponds_to_guest(const pcmk_resource_t *rsc,
const pcmk_node_t *node);
G_GNUC_INTERNAL
pcmk_node_t *pcmk__connection_host_for_action(const pcmk_action_t *action);
G_GNUC_INTERNAL
void pcmk__substitute_remote_addr(pcmk_resource_t *rsc, GHashTable *params);
G_GNUC_INTERNAL
void pcmk__add_guest_meta_to_xml(xmlNode *args_xml,
const pcmk_action_t *action);
// Primitives (pcmk_sched_primitive.c)
G_GNUC_INTERNAL
pcmk_node_t *pcmk__primitive_assign(pcmk_resource_t *rsc,
const pcmk_node_t *prefer,
bool stop_if_fail);
G_GNUC_INTERNAL
void pcmk__primitive_create_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__primitive_internal_constraints(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
uint32_t pcmk__primitive_action_flags(pcmk_action_t *action,
const pcmk_node_t *node);
G_GNUC_INTERNAL
int pcmk__primitive_apply_coloc_score(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
bool for_dependent);
G_GNUC_INTERNAL
void pcmk__with_primitive_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__primitive_with_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__schedule_cleanup(pcmk_resource_t *rsc, const pcmk_node_t *node,
bool optional);
G_GNUC_INTERNAL
void pcmk__primitive_add_graph_meta(const pcmk_resource_t *rsc, xmlNode *xml);
G_GNUC_INTERNAL
void pcmk__primitive_add_utilization(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *all_rscs, GHashTable *utilization);
G_GNUC_INTERNAL
void pcmk__primitive_shutdown_lock(pcmk_resource_t *rsc);
// Groups (pcmk_sched_group.c)
G_GNUC_INTERNAL
pcmk_node_t *pcmk__group_assign(pcmk_resource_t *rsc, const pcmk_node_t *prefer,
bool stop_if_fail);
G_GNUC_INTERNAL
void pcmk__group_create_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__group_internal_constraints(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
int pcmk__group_apply_coloc_score(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
bool for_dependent);
G_GNUC_INTERNAL
void pcmk__with_group_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__group_with_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__group_add_colocated_node_scores(pcmk_resource_t *source_rsc,
const pcmk_resource_t *target_rsc,
const char *log_id,
GHashTable **nodes,
const pcmk__colocation_t *colocation,
float factor, uint32_t flags);
G_GNUC_INTERNAL
void pcmk__group_apply_location(pcmk_resource_t *rsc,
pcmk__location_t *location);
G_GNUC_INTERNAL
uint32_t pcmk__group_action_flags(pcmk_action_t *action,
const pcmk_node_t *node);
G_GNUC_INTERNAL
uint32_t pcmk__group_update_ordered_actions(pcmk_action_t *first,
pcmk_action_t *then,
const pcmk_node_t *node,
uint32_t flags, uint32_t filter,
uint32_t type,
pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
GList *pcmk__group_colocated_resources(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *colocated_rscs);
G_GNUC_INTERNAL
void pcmk__group_add_utilization(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *all_rscs, GHashTable *utilization);
G_GNUC_INTERNAL
void pcmk__group_shutdown_lock(pcmk_resource_t *rsc);
// Clones (pcmk_sched_clone.c)
G_GNUC_INTERNAL
pcmk_node_t *pcmk__clone_assign(pcmk_resource_t *rsc, const pcmk_node_t *prefer,
bool stop_if_fail);
G_GNUC_INTERNAL
void pcmk__clone_create_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
bool pcmk__clone_create_probe(pcmk_resource_t *rsc, pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__clone_internal_constraints(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
int pcmk__clone_apply_coloc_score(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
bool for_dependent);
G_GNUC_INTERNAL
void pcmk__with_clone_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__clone_with_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__clone_apply_location(pcmk_resource_t *rsc,
pcmk__location_t *constraint);
G_GNUC_INTERNAL
uint32_t pcmk__clone_action_flags(pcmk_action_t *action,
const pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__clone_add_actions_to_graph(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__clone_add_graph_meta(const pcmk_resource_t *rsc, xmlNode *xml);
G_GNUC_INTERNAL
void pcmk__clone_add_utilization(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *all_rscs, GHashTable *utilization);
G_GNUC_INTERNAL
void pcmk__clone_shutdown_lock(pcmk_resource_t *rsc);
// Bundles (pcmk_sched_bundle.c)
G_GNUC_INTERNAL
pcmk_node_t *pcmk__bundle_assign(pcmk_resource_t *rsc,
const pcmk_node_t *prefer, bool stop_if_fail);
G_GNUC_INTERNAL
void pcmk__bundle_create_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
bool pcmk__bundle_create_probe(pcmk_resource_t *rsc, pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__bundle_internal_constraints(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
int pcmk__bundle_apply_coloc_score(pcmk_resource_t *dependent,
const pcmk_resource_t *primary,
const pcmk__colocation_t *colocation,
bool for_dependent);
G_GNUC_INTERNAL
void pcmk__with_bundle_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__bundle_with_colocations(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList **list);
G_GNUC_INTERNAL
void pcmk__bundle_apply_location(pcmk_resource_t *rsc,
pcmk__location_t *constraint);
G_GNUC_INTERNAL
uint32_t pcmk__bundle_action_flags(pcmk_action_t *action,
const pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__output_bundle_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__bundle_add_actions_to_graph(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__bundle_add_utilization(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *all_rscs, GHashTable *utilization);
G_GNUC_INTERNAL
void pcmk__bundle_shutdown_lock(pcmk_resource_t *rsc);
// Clone instances or bundle replica containers (pcmk_sched_instances.c)
G_GNUC_INTERNAL
void pcmk__assign_instances(pcmk_resource_t *collective, GList *instances,
int max_total, int max_per_node);
G_GNUC_INTERNAL
void pcmk__create_instance_actions(pcmk_resource_t *rsc, GList *instances);
G_GNUC_INTERNAL
bool pcmk__instance_matches(const pcmk_resource_t *instance,
const pcmk_node_t *node, enum rsc_role_e role,
bool current);
G_GNUC_INTERNAL
pcmk_resource_t *pcmk__find_compatible_instance(const pcmk_resource_t *match_rsc,
const pcmk_resource_t *rsc,
enum rsc_role_e role,
bool current);
G_GNUC_INTERNAL
uint32_t pcmk__instance_update_ordered_actions(pcmk_action_t *first,
pcmk_action_t *then,
const pcmk_node_t *node,
uint32_t flags, uint32_t filter,
uint32_t type,
pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
uint32_t pcmk__collective_action_flags(pcmk_action_t *action,
const GList *instances,
const pcmk_node_t *node);
// Injections (pcmk_injections.c)
G_GNUC_INTERNAL
xmlNode *pcmk__inject_node(cib_t *cib_conn, const char *node, const char *uuid);
G_GNUC_INTERNAL
xmlNode *pcmk__inject_node_state_change(cib_t *cib_conn, const char *node,
bool up);
G_GNUC_INTERNAL
xmlNode *pcmk__inject_resource_history(pcmk__output_t *out, xmlNode *cib_node,
const char *resource,
const char *lrm_name,
const char *rclass,
const char *rtype,
const char *rprovider);
G_GNUC_INTERNAL
void pcmk__inject_failcount(pcmk__output_t *out, cib_t *cib_conn,
xmlNode *cib_node, const char *resource,
- const char *task, guint interval_ms, int rc);
+ const char *task, guint interval_ms, int rc,
+ bool infinity);
G_GNUC_INTERNAL
xmlNode *pcmk__inject_action_result(xmlNode *cib_resource,
lrmd_event_data_t *op, const char *node,
int target_rc);
// Nodes (pcmk_sched_nodes.c)
G_GNUC_INTERNAL
bool pcmk__node_available(const pcmk_node_t *node, bool consider_score,
bool consider_guest);
G_GNUC_INTERNAL
bool pcmk__any_node_available(GHashTable *nodes);
G_GNUC_INTERNAL
GHashTable *pcmk__copy_node_table(GHashTable *nodes);
G_GNUC_INTERNAL
void pcmk__copy_node_tables(const pcmk_resource_t *rsc, GHashTable **copy);
G_GNUC_INTERNAL
void pcmk__restore_node_tables(pcmk_resource_t *rsc, GHashTable *backup);
G_GNUC_INTERNAL
GList *pcmk__sort_nodes(GList *nodes, pcmk_node_t *active_node);
G_GNUC_INTERNAL
void pcmk__apply_node_health(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
pcmk_node_t *pcmk__top_allowed_node(const pcmk_resource_t *rsc,
const pcmk_node_t *node);
// Functions applying to more than one variant (pcmk_sched_resource.c)
G_GNUC_INTERNAL
void pcmk__set_assignment_methods(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
bool pcmk__rsc_agent_changed(pcmk_resource_t *rsc, pcmk_node_t *node,
const xmlNode *rsc_entry, bool active_on_node);
G_GNUC_INTERNAL
GList *pcmk__rscs_matching_id(const char *id,
const pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
GList *pcmk__colocated_resources(const pcmk_resource_t *rsc,
const pcmk_resource_t *orig_rsc,
GList *colocated_rscs);
G_GNUC_INTERNAL
void pcmk__noop_add_graph_meta(const pcmk_resource_t *rsc, xmlNode *xml);
G_GNUC_INTERNAL
void pcmk__output_resource_actions(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
bool pcmk__assign_resource(pcmk_resource_t *rsc, pcmk_node_t *node, bool force,
bool stop_if_fail);
G_GNUC_INTERNAL
void pcmk__unassign_resource(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
bool pcmk__threshold_reached(pcmk_resource_t *rsc, const pcmk_node_t *node,
pcmk_resource_t **failed);
G_GNUC_INTERNAL
void pcmk__sort_resources(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
gint pcmk__cmp_instance(gconstpointer a, gconstpointer b);
G_GNUC_INTERNAL
gint pcmk__cmp_instance_number(gconstpointer a, gconstpointer b);
// Functions related to probes (pcmk_sched_probes.c)
G_GNUC_INTERNAL
bool pcmk__probe_rsc_on_node(pcmk_resource_t *rsc, pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__order_probes(pcmk_scheduler_t *scheduler);
G_GNUC_INTERNAL
bool pcmk__probe_resource_list(GList *rscs, pcmk_node_t *node);
G_GNUC_INTERNAL
void pcmk__schedule_probes(pcmk_scheduler_t *scheduler);
// Functions related to live migration (pcmk_sched_migration.c)
void pcmk__create_migration_actions(pcmk_resource_t *rsc,
const pcmk_node_t *current);
void pcmk__abort_dangling_migration(void *data, void *user_data);
bool pcmk__rsc_can_migrate(const pcmk_resource_t *rsc,
const pcmk_node_t *current);
void pcmk__order_migration_equivalents(pcmk__action_relation_t *order);
// Functions related to node utilization (pcmk_sched_utilization.c)
G_GNUC_INTERNAL
int pcmk__compare_node_capacities(const pcmk_node_t *node1,
const pcmk_node_t *node2);
G_GNUC_INTERNAL
void pcmk__consume_node_capacity(GHashTable *current_utilization,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__release_node_capacity(GHashTable *current_utilization,
const pcmk_resource_t *rsc);
G_GNUC_INTERNAL
const pcmk_node_t *pcmk__ban_insufficient_capacity(pcmk_resource_t *rsc);
G_GNUC_INTERNAL
void pcmk__create_utilization_constraints(pcmk_resource_t *rsc,
const GList *allowed_nodes);
G_GNUC_INTERNAL
void pcmk__show_node_capacities(const char *desc, pcmk_scheduler_t *scheduler);
// Functions related to the scheduler (pcmk_scheduler.c)
G_GNUC_INTERNAL
int pcmk__init_scheduler(pcmk__output_t *out, xmlNodePtr input, const crm_time_t *date,
pcmk_scheduler_t **scheduler);
// General setup functions (pcmk_setup.c)
G_GNUC_INTERNAL
int pcmk__setup_output_cib_sched(pcmk__output_t **out, cib_t **cib,
pcmk_scheduler_t **scheduler, xmlNode **xml);
G_GNUC_INTERNAL
int pcmk__setup_output_fencing(pcmk__output_t **out, stonith_t **st, xmlNode **xml);
#ifdef __cplusplus
}
#endif
#endif // PCMK__PACEMAKER_LIBPACEMAKER_PRIVATE__H
diff --git a/lib/pacemaker/pcmk_graph_consumer.c b/lib/pacemaker/pcmk_graph_consumer.c
index b0735e38da..745ff4b525 100644
--- a/lib/pacemaker/pcmk_graph_consumer.c
+++ b/lib/pacemaker/pcmk_graph_consumer.c
@@ -1,868 +1,868 @@
/*
* 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_internal.h>
#include <sys/param.h>
#include <sys/stat.h>
#include <crm/crm.h>
#include <crm/common/xml.h>
#include <crm/common/xml_internal.h>
#include <crm/lrmd_internal.h>
#include <pacemaker-internal.h>
/*
* Functions for freeing transition graph objects
*/
/*!
* \internal
* \brief Free a transition graph action object
*
* \param[in,out] user_data Action to free
*/
static void
free_graph_action(gpointer user_data)
{
pcmk__graph_action_t *action = user_data;
if (action->timer != 0) {
crm_warn("Cancelling timer for graph action %d", action->id);
g_source_remove(action->timer);
}
if (action->params != NULL) {
g_hash_table_destroy(action->params);
}
pcmk__xml_free(action->xml);
free(action);
}
/*!
* \internal
* \brief Free a transition graph synapse object
*
* \param[in,out] user_data Synapse to free
*/
static void
free_graph_synapse(gpointer user_data)
{
pcmk__graph_synapse_t *synapse = user_data;
g_list_free_full(synapse->actions, free_graph_action);
g_list_free_full(synapse->inputs, free_graph_action);
free(synapse);
}
/*!
* \internal
* \brief Free a transition graph object
*
* \param[in,out] graph Transition graph to free
*/
void
pcmk__free_graph(pcmk__graph_t *graph)
{
if (graph != NULL) {
g_list_free_full(graph->synapses, free_graph_synapse);
free(graph->source);
free(graph->failed_stop_offset);
free(graph->failed_start_offset);
free(graph);
}
}
/*
* Functions for updating graph
*/
/*!
* \internal
* \brief Update synapse after completed prerequisite
*
* A synapse is ready to be executed once all its prerequisite actions (inputs)
* complete. Given a completed action, check whether it is an input for a given
* synapse, and if so, mark the input as confirmed, and mark the synapse as
* ready if appropriate.
*
* \param[in,out] synapse Transition graph synapse to update
* \param[in] action_id ID of an action that completed
*
* \note The only substantial effect here is confirming synapse inputs.
* should_fire_synapse() will recalculate pcmk__synapse_ready, so the only
* thing that uses the pcmk__synapse_ready from here is
* synapse_state_str().
*/
static void
update_synapse_ready(pcmk__graph_synapse_t *synapse, int action_id)
{
if (pcmk_is_set(synapse->flags, pcmk__synapse_ready)) {
return; // All inputs have already been confirmed
}
// Presume ready until proven otherwise
pcmk__set_synapse_flags(synapse, pcmk__synapse_ready);
for (GList *lpc = synapse->inputs; lpc != NULL; lpc = lpc->next) {
pcmk__graph_action_t *prereq = (pcmk__graph_action_t *) lpc->data;
if (prereq->id == action_id) {
crm_trace("Confirming input %d of synapse %d",
action_id, synapse->id);
pcmk__set_graph_action_flags(prereq, pcmk__graph_action_confirmed);
} else if (!pcmk_is_set(prereq->flags, pcmk__graph_action_confirmed)) {
pcmk__clear_synapse_flags(synapse, pcmk__synapse_ready);
crm_trace("Synapse %d still not ready after action %d",
synapse->id, action_id);
}
}
if (pcmk_is_set(synapse->flags, pcmk__synapse_ready)) {
crm_trace("Synapse %d is now ready to execute", synapse->id);
}
}
/*!
* \internal
* \brief Update action and synapse confirmation after action completion
*
* \param[in,out] synapse Transition graph synapse that action belongs to
* \param[in] action_id ID of action that completed
*/
static void
update_synapse_confirmed(pcmk__graph_synapse_t *synapse, int action_id)
{
bool all_confirmed = true;
for (GList *lpc = synapse->actions; lpc != NULL; lpc = lpc->next) {
pcmk__graph_action_t *action = (pcmk__graph_action_t *) lpc->data;
if (action->id == action_id) {
crm_trace("Confirmed action %d of synapse %d",
action_id, synapse->id);
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
} else if (all_confirmed &&
!pcmk_is_set(action->flags, pcmk__graph_action_confirmed)) {
all_confirmed = false;
crm_trace("Synapse %d still not confirmed after action %d",
synapse->id, action_id);
}
}
if (all_confirmed
&& !pcmk_is_set(synapse->flags, pcmk__synapse_confirmed)) {
crm_trace("Confirmed synapse %d", synapse->id);
pcmk__set_synapse_flags(synapse, pcmk__synapse_confirmed);
}
}
/*!
* \internal
* \brief Update the transition graph with a completed action result
*
* \param[in,out] graph Transition graph to update
* \param[in] action Action that completed
*/
void
pcmk__update_graph(pcmk__graph_t *graph, const pcmk__graph_action_t *action)
{
for (GList *lpc = graph->synapses; lpc != NULL; lpc = lpc->next) {
pcmk__graph_synapse_t *synapse = (pcmk__graph_synapse_t *) lpc->data;
if (pcmk_any_flags_set(synapse->flags,
pcmk__synapse_confirmed|pcmk__synapse_failed)) {
continue; // This synapse already completed
} else if (pcmk_is_set(synapse->flags, pcmk__synapse_executed)) {
update_synapse_confirmed(synapse, action->id);
} else if (!pcmk_is_set(action->flags, pcmk__graph_action_failed)
|| (synapse->priority == PCMK_SCORE_INFINITY)) {
update_synapse_ready(synapse, action->id);
}
}
}
/*
* Functions for executing graph
*/
/* A transition graph consists of various types of actions. The library caller
* registers execution functions for each action type, which will be stored
* here.
*/
static pcmk__graph_functions_t *graph_fns = NULL;
/*!
* \internal
* \brief Set transition graph execution functions
*
* \param[in] Execution functions to use
*/
void
pcmk__set_graph_functions(pcmk__graph_functions_t *fns)
{
pcmk__assert((fns != NULL) && (fns->rsc != NULL) && (fns->cluster != NULL)
&& (fns->pseudo != NULL) && (fns->fence != NULL));
crm_debug("Setting custom functions for executing transition graphs");
graph_fns = fns;
}
/*!
* \internal
* \brief Check whether a graph synapse is ready to be executed
*
* \param[in,out] graph Transition graph that synapse is part of
* \param[in,out] synapse Synapse to check
*
* \return true if synapse is ready, false otherwise
*/
static bool
should_fire_synapse(pcmk__graph_t *graph, pcmk__graph_synapse_t *synapse)
{
GList *lpc = NULL;
pcmk__set_synapse_flags(synapse, pcmk__synapse_ready);
for (lpc = synapse->inputs; lpc != NULL; lpc = lpc->next) {
pcmk__graph_action_t *prereq = (pcmk__graph_action_t *) lpc->data;
if (!(pcmk_is_set(prereq->flags, pcmk__graph_action_confirmed))) {
crm_trace("Input %d for synapse %d not yet confirmed",
prereq->id, synapse->id);
pcmk__clear_synapse_flags(synapse, pcmk__synapse_ready);
break;
} else if (pcmk_is_set(prereq->flags, pcmk__graph_action_failed)) {
crm_trace("Input %d for synapse %d confirmed but failed",
prereq->id, synapse->id);
pcmk__clear_synapse_flags(synapse, pcmk__synapse_ready);
break;
}
}
if (pcmk_is_set(synapse->flags, pcmk__synapse_ready)) {
crm_trace("Synapse %d is ready to execute", synapse->id);
} else {
return false;
}
for (lpc = synapse->actions; lpc != NULL; lpc = lpc->next) {
pcmk__graph_action_t *a = (pcmk__graph_action_t *) lpc->data;
if (a->type == pcmk__pseudo_graph_action) {
/* None of the below applies to pseudo ops */
} else if (synapse->priority < graph->abort_priority) {
crm_trace("Skipping synapse %d: priority %d is less than "
"abort priority %d",
synapse->id, synapse->priority, graph->abort_priority);
graph->skipped++;
return false;
} else if (graph_fns->allowed && !(graph_fns->allowed(graph, a))) {
crm_trace("Deferring synapse %d: not allowed", synapse->id);
return false;
}
}
return true;
}
/*!
* \internal
* \brief Initiate an action from a transition graph
*
* \param[in,out] graph Transition graph containing action
* \param[in,out] action Action to execute
*
* \return Standard Pacemaker return code
*/
static int
initiate_action(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
const char *id = pcmk__xe_id(action->xml);
CRM_CHECK(id != NULL, return EINVAL);
CRM_CHECK(!pcmk_is_set(action->flags, pcmk__graph_action_executed),
return pcmk_rc_already);
pcmk__set_graph_action_flags(action, pcmk__graph_action_executed);
switch (action->type) {
case pcmk__pseudo_graph_action:
crm_trace("Executing pseudo-action %d (%s)", action->id, id);
return graph_fns->pseudo(graph, action);
case pcmk__rsc_graph_action:
crm_trace("Executing resource action %d (%s)", action->id, id);
return graph_fns->rsc(graph, action);
case pcmk__cluster_graph_action:
if (pcmk__str_eq(crm_element_value(action->xml, PCMK_XA_OPERATION),
PCMK_ACTION_STONITH, pcmk__str_none)) {
crm_trace("Executing fencing action %d (%s)",
action->id, id);
return graph_fns->fence(graph, action);
}
crm_trace("Executing cluster action %d (%s)", action->id, id);
return graph_fns->cluster(graph, action);
default:
crm_err("Unsupported graph action type <%s " PCMK_XA_ID "='%s'> "
"(bug?)",
action->xml->name, id);
return EINVAL;
}
}
/*!
* \internal
* \brief Execute a graph synapse
*
* \param[in,out] graph Transition graph with synapse to execute
* \param[in,out] synapse Synapse to execute
*
* \return Standard Pacemaker return value
*/
static int
fire_synapse(pcmk__graph_t *graph, pcmk__graph_synapse_t *synapse)
{
pcmk__set_synapse_flags(synapse, pcmk__synapse_executed);
for (GList *lpc = synapse->actions; lpc != NULL; lpc = lpc->next) {
pcmk__graph_action_t *action = (pcmk__graph_action_t *) lpc->data;
int rc = initiate_action(graph, action);
if (rc != pcmk_rc_ok) {
crm_err("Failed initiating <%s " PCMK_XA_ID "=%d> in synapse %d: "
"%s",
action->xml->name, action->id, synapse->id,
pcmk_rc_str(rc));
pcmk__set_synapse_flags(synapse, pcmk__synapse_confirmed);
pcmk__set_graph_action_flags(action,
pcmk__graph_action_confirmed
|pcmk__graph_action_failed);
return pcmk_rc_error;
}
}
return pcmk_rc_ok;
}
/*!
* \internal
* \brief Dummy graph method that can be used with simulations
*
* \param[in,out] graph Transition graph containing action
* \param[in,out] action Graph action to be initiated
*
* \return Standard Pacemaker return code
* \note If the PE_fail environment variable is set to the action ID,
* then the graph action will be marked as failed.
*/
static int
pseudo_action_dummy(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
static int fail = -1;
if (fail < 0) {
long long fail_ll;
if ((pcmk__scan_ll(getenv("PE_fail"), &fail_ll, 0LL) == pcmk_rc_ok)
&& (fail_ll > 0LL) && (fail_ll <= INT_MAX)) {
fail = (int) fail_ll;
} else {
fail = 0;
}
}
if (action->id == fail) {
crm_err("Dummy event handler: pretending action %d failed", action->id);
pcmk__set_graph_action_flags(action, pcmk__graph_action_failed);
graph->abort_priority = PCMK_SCORE_INFINITY;
} else {
crm_trace("Dummy event handler: action %d initiated", action->id);
}
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
pcmk__update_graph(graph, action);
return pcmk_rc_ok;
}
static pcmk__graph_functions_t default_fns = {
pseudo_action_dummy,
pseudo_action_dummy,
pseudo_action_dummy,
pseudo_action_dummy
};
/*!
* \internal
* \brief Execute all actions in a transition graph
*
* \param[in,out] graph Transition graph to execute
*
* \return Status of transition after execution
*/
enum pcmk__graph_status
pcmk__execute_graph(pcmk__graph_t *graph)
{
GList *lpc = NULL;
int log_level = LOG_DEBUG;
enum pcmk__graph_status pass_result = pcmk__graph_active;
const char *status = "In progress";
if (graph_fns == NULL) {
graph_fns = &default_fns;
}
if (graph == NULL) {
return pcmk__graph_complete;
}
graph->fired = 0;
graph->pending = 0;
graph->skipped = 0;
graph->completed = 0;
graph->incomplete = 0;
// Count completed and in-flight synapses
for (lpc = graph->synapses; lpc != NULL; lpc = lpc->next) {
pcmk__graph_synapse_t *synapse = (pcmk__graph_synapse_t *) lpc->data;
if (pcmk_is_set(synapse->flags, pcmk__synapse_confirmed)) {
graph->completed++;
} else if (!pcmk_is_set(synapse->flags, pcmk__synapse_failed)
&& pcmk_is_set(synapse->flags, pcmk__synapse_executed)) {
graph->pending++;
}
}
crm_trace("Executing graph %d (%d synapses already completed, %d pending)",
graph->id, graph->completed, graph->pending);
// Execute any synapses that are ready
for (lpc = graph->synapses; lpc != NULL; lpc = lpc->next) {
pcmk__graph_synapse_t *synapse = (pcmk__graph_synapse_t *) lpc->data;
if ((graph->batch_limit > 0)
&& (graph->pending >= graph->batch_limit)) {
crm_debug("Throttling graph execution: batch limit (%d) reached",
graph->batch_limit);
break;
} else if (pcmk_is_set(synapse->flags, pcmk__synapse_failed)) {
graph->skipped++;
continue;
} else if (pcmk_any_flags_set(synapse->flags,
pcmk__synapse_confirmed
|pcmk__synapse_executed)) {
continue; // Already handled
} else if (should_fire_synapse(graph, synapse)) {
graph->fired++;
if (fire_synapse(graph, synapse) != pcmk_rc_ok) {
crm_err("Synapse %d failed to fire", synapse->id);
log_level = LOG_ERR;
graph->abort_priority = PCMK_SCORE_INFINITY;
graph->incomplete++;
graph->fired--;
}
if (!(pcmk_is_set(synapse->flags, pcmk__synapse_confirmed))) {
graph->pending++;
}
} else {
crm_trace("Synapse %d cannot fire", synapse->id);
graph->incomplete++;
}
}
if ((graph->pending == 0) && (graph->fired == 0)) {
graph->complete = true;
if ((graph->incomplete != 0) && (graph->abort_priority <= 0)) {
log_level = LOG_WARNING;
pass_result = pcmk__graph_terminated;
status = "Terminated";
} else if (graph->skipped != 0) {
log_level = LOG_NOTICE;
pass_result = pcmk__graph_complete;
status = "Stopped";
} else {
log_level = LOG_NOTICE;
pass_result = pcmk__graph_complete;
status = "Complete";
}
} else if (graph->fired == 0) {
pass_result = pcmk__graph_pending;
}
do_crm_log(log_level,
"Transition %d (Complete=%d, Pending=%d,"
" Fired=%d, Skipped=%d, Incomplete=%d, Source=%s): %s",
graph->id, graph->completed, graph->pending, graph->fired,
graph->skipped, graph->incomplete, graph->source, status);
return pass_result;
}
/*
* Functions for unpacking transition graph XML into structs
*/
/*!
* \internal
* \brief Unpack a transition graph action from XML
*
* \param[in] parent Synapse that action is part of
* \param[in] xml_action Action XML to unparse
*
* \return Newly allocated action on success, or NULL otherwise
*/
static pcmk__graph_action_t *
unpack_action(pcmk__graph_synapse_t *parent, xmlNode *xml_action)
{
enum pcmk__graph_action_type action_type;
pcmk__graph_action_t *action = NULL;
const char *value = pcmk__xe_id(xml_action);
if (value == NULL) {
crm_err("Ignoring transition graph action without " PCMK_XA_ID
" (bug?)");
crm_log_xml_trace(xml_action, "invalid");
return NULL;
}
if (pcmk__xe_is(xml_action, PCMK__XE_RSC_OP)) {
action_type = pcmk__rsc_graph_action;
} else if (pcmk__xe_is(xml_action, PCMK__XE_PSEUDO_EVENT)) {
action_type = pcmk__pseudo_graph_action;
} else if (pcmk__xe_is(xml_action, PCMK__XE_CRM_EVENT)) {
action_type = pcmk__cluster_graph_action;
} else {
crm_err("Ignoring transition graph action of unknown type '%s' (bug?)",
xml_action->name);
crm_log_xml_trace(xml_action, "invalid");
return NULL;
}
action = calloc(1, sizeof(pcmk__graph_action_t));
if (action == NULL) {
crm_perror(LOG_CRIT, "Cannot unpack transition graph action");
crm_log_xml_trace(xml_action, "lost");
return NULL;
}
pcmk__scan_min_int(value, &(action->id), -1);
action->type = pcmk__rsc_graph_action;
action->xml = pcmk__xml_copy(NULL, xml_action);
action->synapse = parent;
action->type = action_type;
action->params = xml2list(action->xml);
value = crm_meta_value(action->params, PCMK_META_TIMEOUT);
pcmk__scan_min_int(value, &(action->timeout), 0);
/* Take PCMK_META_START_DELAY into account for the timeout of the action
* timer
*/
value = crm_meta_value(action->params, PCMK_META_START_DELAY);
{
int start_delay;
pcmk__scan_min_int(value, &start_delay, 0);
action->timeout += start_delay;
}
if (pcmk__guint_from_hash(action->params, CRM_META "_" PCMK_META_INTERVAL,
0, &(action->interval_ms)) != pcmk_rc_ok) {
action->interval_ms = 0;
}
crm_trace("Action %d has timer set to %dms", action->id, action->timeout);
return action;
}
/*!
* \internal
* \brief Unpack transition graph synapse from XML
*
* \param[in,out] new_graph Transition graph that synapse is part of
* \param[in] xml_synapse Synapse XML
*
* \return Newly allocated synapse on success, or NULL otherwise
*/
static pcmk__graph_synapse_t *
unpack_synapse(pcmk__graph_t *new_graph, const xmlNode *xml_synapse)
{
const char *value = NULL;
xmlNode *action_set = NULL;
pcmk__graph_synapse_t *new_synapse = NULL;
crm_trace("Unpacking synapse %s", pcmk__xe_id(xml_synapse));
new_synapse = calloc(1, sizeof(pcmk__graph_synapse_t));
if (new_synapse == NULL) {
return NULL;
}
pcmk__scan_min_int(pcmk__xe_id(xml_synapse), &(new_synapse->id), 0);
value = crm_element_value(xml_synapse, PCMK__XA_PRIORITY);
pcmk__scan_min_int(value, &(new_synapse->priority), 0);
CRM_CHECK(new_synapse->id >= 0,
free_graph_synapse((gpointer) new_synapse); return NULL);
new_graph->num_synapses++;
crm_trace("Unpacking synapse %s action sets",
crm_element_value(xml_synapse, PCMK_XA_ID));
for (action_set = pcmk__xe_first_child(xml_synapse, PCMK__XE_ACTION_SET,
NULL, NULL);
action_set != NULL;
action_set = pcmk__xe_next(action_set, PCMK__XE_ACTION_SET)) {
for (xmlNode *action = pcmk__xe_first_child(action_set, NULL, NULL,
NULL);
action != NULL; action = pcmk__xe_next(action, NULL)) {
pcmk__graph_action_t *new_action = unpack_action(new_synapse,
action);
if (new_action == NULL) {
continue;
}
crm_trace("Adding action %d to synapse %d",
new_action->id, new_synapse->id);
new_graph->num_actions++;
new_synapse->actions = g_list_append(new_synapse->actions,
new_action);
}
}
crm_trace("Unpacking synapse %s inputs", pcmk__xe_id(xml_synapse));
for (xmlNode *inputs = pcmk__xe_first_child(xml_synapse, PCMK__XE_INPUTS,
NULL, NULL);
inputs != NULL; inputs = pcmk__xe_next(inputs, PCMK__XE_INPUTS)) {
for (xmlNode *trigger = pcmk__xe_first_child(inputs, PCMK__XE_TRIGGER,
NULL, NULL);
trigger != NULL;
trigger = pcmk__xe_next(trigger, PCMK__XE_TRIGGER)) {
for (xmlNode *input = pcmk__xe_first_child(trigger, NULL, NULL,
NULL);
input != NULL; input = pcmk__xe_next(input, NULL)) {
pcmk__graph_action_t *new_input = unpack_action(new_synapse,
input);
if (new_input == NULL) {
continue;
}
crm_trace("Adding input %d to synapse %d",
new_input->id, new_synapse->id);
new_synapse->inputs = g_list_append(new_synapse->inputs,
new_input);
}
}
}
return new_synapse;
}
/*!
* \internal
* \brief Unpack transition graph XML
*
* \param[in] xml_graph Transition graph XML to unpack
* \param[in] reference Where the XML came from (for logging)
*
* \return Newly allocated transition graph on success, NULL otherwise
* \note The caller is responsible for freeing the return value using
* pcmk__free_graph().
* \note The XML is expected to be structured like:
<transition_graph ...>
<synapse id="0">
<action_set>
<rsc_op id="2" ...>
...
</action_set>
<inputs>
<rsc_op id="1" ...
...
</inputs>
</synapse>
...
</transition_graph>
*/
pcmk__graph_t *
pcmk__unpack_graph(const xmlNode *xml_graph, const char *reference)
{
pcmk__graph_t *new_graph = NULL;
new_graph = calloc(1, sizeof(pcmk__graph_t));
if (new_graph == NULL) {
return NULL;
}
new_graph->source = strdup(pcmk__s(reference, "unknown"));
if (new_graph->source == NULL) {
pcmk__free_graph(new_graph);
return NULL;
}
new_graph->completion_action = pcmk__graph_done;
// Parse top-level attributes from PCMK__XE_TRANSITION_GRAPH
if (xml_graph != NULL) {
const char *buf = crm_element_value(xml_graph, "transition_id");
CRM_CHECK(buf != NULL,
pcmk__free_graph(new_graph); return NULL);
pcmk__scan_min_int(buf, &(new_graph->id), 1);
buf = crm_element_value(xml_graph, PCMK_OPT_CLUSTER_DELAY);
CRM_CHECK(buf != NULL,
pcmk__free_graph(new_graph); return NULL);
pcmk_parse_interval_spec(buf, &(new_graph->network_delay));
buf = crm_element_value(xml_graph, PCMK_OPT_STONITH_TIMEOUT);
if (buf == NULL) {
new_graph->stonith_timeout = new_graph->network_delay;
} else {
pcmk_parse_interval_spec(buf, &(new_graph->stonith_timeout));
}
// Use 0 (dynamic limit) as default/invalid, -1 (no limit) as minimum
buf = crm_element_value(xml_graph, PCMK_OPT_BATCH_LIMIT);
if ((buf == NULL)
|| (pcmk__scan_min_int(buf, &(new_graph->batch_limit),
-1) != pcmk_rc_ok)) {
new_graph->batch_limit = 0;
}
buf = crm_element_value(xml_graph, PCMK_OPT_MIGRATION_LIMIT);
pcmk__scan_min_int(buf, &(new_graph->migration_limit), -1);
new_graph->failed_stop_offset =
- crm_element_value_copy(xml_graph, "failed-stop-offset");
+ crm_element_value_copy(xml_graph, PCMK__XA_FAILED_STOP_OFFSET);
new_graph->failed_start_offset =
- crm_element_value_copy(xml_graph, "failed-start-offset");
+ crm_element_value_copy(xml_graph, PCMK__XA_FAILED_START_OFFSET);
if (crm_element_value_epoch(xml_graph, "recheck-by",
&(new_graph->recheck_by)) != pcmk_ok) {
new_graph->recheck_by = 0;
}
}
// Unpack each child <synapse> element
for (const xmlNode *synapse_xml = pcmk__xe_first_child(xml_graph,
PCMK__XE_SYNAPSE,
NULL, NULL);
synapse_xml != NULL;
synapse_xml = pcmk__xe_next(synapse_xml, PCMK__XE_SYNAPSE)) {
pcmk__graph_synapse_t *new_synapse = unpack_synapse(new_graph,
synapse_xml);
if (new_synapse != NULL) {
new_graph->synapses = g_list_append(new_graph->synapses,
new_synapse);
}
}
crm_debug("Unpacked transition %d from %s: %d actions in %d synapses",
new_graph->id, new_graph->source, new_graph->num_actions,
new_graph->num_synapses);
return new_graph;
}
/*
* Other transition graph utilities
*/
/*!
* \internal
* \brief Synthesize an executor event from a graph action
*
* \param[in] resource If not NULL, use greater call ID than in this XML
* \param[in] action Graph action
* \param[in] status What to use as event execution status
* \param[in] rc What to use as event exit status
* \param[in] exit_reason What to use as event exit reason
*
* \return Newly allocated executor event on success, or NULL otherwise
*/
lrmd_event_data_t *
pcmk__event_from_graph_action(const xmlNode *resource,
const pcmk__graph_action_t *action,
int status, int rc, const char *exit_reason)
{
lrmd_event_data_t *op = NULL;
GHashTableIter iter;
const char *name = NULL;
const char *value = NULL;
xmlNode *action_resource = NULL;
CRM_CHECK(action != NULL, return NULL);
CRM_CHECK(action->type == pcmk__rsc_graph_action, return NULL);
action_resource = pcmk__xe_first_child(action->xml, PCMK_XE_PRIMITIVE, NULL,
NULL);
CRM_CHECK(action_resource != NULL, crm_log_xml_warn(action->xml, "invalid");
return NULL);
op = lrmd_new_event(pcmk__xe_id(action_resource),
crm_element_value(action->xml, PCMK_XA_OPERATION),
action->interval_ms);
lrmd__set_result(op, rc, status, exit_reason);
op->t_run = time(NULL);
op->t_rcchange = op->t_run;
op->params = pcmk__strkey_table(free, free);
g_hash_table_iter_init(&iter, action->params);
while (g_hash_table_iter_next(&iter, (void **)&name, (void **)&value)) {
pcmk__insert_dup(op->params, name, value);
}
for (xmlNode *xop = pcmk__xe_first_child(resource, NULL, NULL, NULL);
xop != NULL; xop = pcmk__xe_next(xop, NULL)) {
int tmp = 0;
crm_element_value_int(xop, PCMK__XA_CALL_ID, &tmp);
crm_debug("Got call_id=%d for %s", tmp, pcmk__xe_id(resource));
if (tmp > op->call_id) {
op->call_id = tmp;
}
}
op->call_id++;
return op;
}
diff --git a/lib/pacemaker/pcmk_graph_producer.c b/lib/pacemaker/pcmk_graph_producer.c
index 352001c753..31ea0227d6 100644
--- a/lib/pacemaker/pcmk_graph_producer.c
+++ b/lib/pacemaker/pcmk_graph_producer.c
@@ -1,1105 +1,1107 @@
/*
* 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 <crm_internal.h>
#include <sys/param.h>
#include <crm/crm.h>
#include <crm/cib.h>
#include <crm/common/xml.h>
#include <glib.h>
#include <pacemaker-internal.h>
#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 {
pcmk__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);
}
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 : "<none>"),
(input_node? input_node->priv->name : "<none>"));
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 : "<none>"),
(input_node? input_node->priv->name : "<none>"));
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, PCMK__XE_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, PCMK__XE_ACTION_SET);
in = pcmk__xe_create(syn, PCMK__XE_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, PCMK__XE_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;
pcmk__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");
+ crm_xml_add(scheduler->priv->graph, PCMK__XA_FAILED_STOP_OFFSET,
+ PCMK_VALUE_INFINITY);
if (pcmk_is_set(scheduler->flags, pcmk__sched_start_failure_fatal)) {
- crm_xml_add(scheduler->priv->graph, "failed-start-offset", "INFINITY");
+ crm_xml_add(scheduler->priv->graph, PCMK__XA_FAILED_START_OFFSET,
+ PCMK_VALUE_INFINITY);
} else {
- crm_xml_add(scheduler->priv->graph, "failed-start-offset", "1");
+ crm_xml_add(scheduler->priv->graph, PCMK__XA_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);
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_injections.c b/lib/pacemaker/pcmk_injections.c
index d249ae7bb0..d728cfea1e 100644
--- a/lib/pacemaker/pcmk_injections.c
+++ b/lib/pacemaker/pcmk_injections.c
@@ -1,777 +1,796 @@
/*
* Copyright 2009-2024 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 <crm_internal.h>
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/param.h>
#include <sys/types.h>
#include <dirent.h>
#include <crm/crm.h>
#include <crm/cib.h>
#include <crm/cib/internal.h>
#include <crm/common/util.h>
#include <crm/common/iso8601.h>
#include <crm/common/xml_internal.h>
#include <crm/lrmd_events.h> // lrmd_event_data_t, etc.
#include <crm/lrmd_internal.h>
#include <crm/pengine/status.h>
#include <pacemaker-internal.h>
#include "libpacemaker_private.h"
bool pcmk__simulate_node_config = false;
#define XPATH_NODE_CONFIG "//" PCMK_XE_NODE "[@" PCMK_XA_UNAME "='%s']"
#define XPATH_NODE_STATE "//" PCMK__XE_NODE_STATE "[@" PCMK_XA_UNAME "='%s']"
#define XPATH_NODE_STATE_BY_ID "//" PCMK__XE_NODE_STATE "[@" PCMK_XA_ID "='%s']"
#define XPATH_RSC_HISTORY XPATH_NODE_STATE \
"//" PCMK__XE_LRM_RESOURCE "[@" PCMK_XA_ID "='%s']"
/*!
* \internal
* \brief Inject a fictitious transient node attribute into scheduler input
*
* \param[in,out] out Output object for displaying error messages
* \param[in,out] cib_node \c PCMK__XE_NODE_STATE XML to inject attribute into
* \param[in] name Transient node attribute name to inject
* \param[in] value Transient node attribute value to inject
*/
static void
inject_transient_attr(pcmk__output_t *out, xmlNode *cib_node,
const char *name, const char *value)
{
xmlNode *attrs = NULL;
xmlNode *instance_attrs = NULL;
const char *node_uuid = pcmk__xe_id(cib_node);
out->message(out, "inject-attr", name, value, cib_node);
attrs = pcmk__xe_first_child(cib_node, PCMK__XE_TRANSIENT_ATTRIBUTES, NULL,
NULL);
if (attrs == NULL) {
attrs = pcmk__xe_create(cib_node, PCMK__XE_TRANSIENT_ATTRIBUTES);
crm_xml_add(attrs, PCMK_XA_ID, node_uuid);
}
instance_attrs = pcmk__xe_first_child(attrs, PCMK_XE_INSTANCE_ATTRIBUTES,
NULL, NULL);
if (instance_attrs == NULL) {
instance_attrs = pcmk__xe_create(attrs, PCMK_XE_INSTANCE_ATTRIBUTES);
crm_xml_add(instance_attrs, PCMK_XA_ID, node_uuid);
}
crm_create_nvpair_xml(instance_attrs, NULL, name, value);
}
/*!
* \internal
* \brief Inject a fictitious fail count into a scheduler input
*
* \param[in,out] out Output object for displaying error messages
* \param[in,out] cib_conn CIB connection
* \param[in,out] cib_node Node state XML to inject into
* \param[in] resource ID of resource for fail count to inject
* \param[in] task Action name for fail count to inject
* \param[in] interval_ms Action interval (in milliseconds) for fail count
* \param[in] exit_status Action result for fail count to inject (if
* \c PCMK_OCF_OK, or \c PCMK_OCF_NOT_RUNNING when
* \p interval_ms is 0, inject nothing)
+ * \param[in] infinity If true, set fail count to "INFINITY", otherwise
+ * increase it by 1
*/
void
pcmk__inject_failcount(pcmk__output_t *out, cib_t *cib_conn, xmlNode *cib_node,
const char *resource, const char *task,
- guint interval_ms, int exit_status)
+ guint interval_ms, int exit_status, bool infinity)
{
char *name = NULL;
char *value = NULL;
int failcount = 0;
xmlNode *output = NULL;
CRM_CHECK((out != NULL) && (cib_conn != NULL) && (cib_node != NULL)
&& (resource != NULL) && (task != NULL), return);
if ((exit_status == PCMK_OCF_OK)
|| ((exit_status == PCMK_OCF_NOT_RUNNING) && (interval_ms == 0))) {
return;
}
// Get current failcount and increment it
name = pcmk__failcount_name(resource, task, interval_ms);
if (cib__get_node_attrs(out, cib_conn, PCMK_XE_STATUS,
pcmk__xe_id(cib_node), NULL, NULL, NULL, name,
NULL, &output) == pcmk_rc_ok) {
if (crm_element_value_int(output, PCMK_XA_VALUE, &failcount) != 0) {
failcount = 0;
}
}
- value = pcmk__itoa(failcount + 1);
+
+ if (infinity) {
+ value = pcmk__str_copy(PCMK_VALUE_INFINITY);
+
+ } else {
+ value = pcmk__itoa(failcount + 1);
+ }
+
inject_transient_attr(out, cib_node, name, value);
free(name);
free(value);
pcmk__xml_free(output);
name = pcmk__lastfailure_name(resource, task, interval_ms);
value = pcmk__ttoa(time(NULL));
inject_transient_attr(out, cib_node, name, value);
free(name);
free(value);
}
/*!
* \internal
* \brief Create a CIB configuration entry for a fictitious node
*
* \param[in,out] cib_conn CIB object to use
* \param[in] node Node name to use
*/
static void
create_node_entry(cib_t *cib_conn, const char *node)
{
int rc = pcmk_ok;
char *xpath = crm_strdup_printf(XPATH_NODE_CONFIG, node);
rc = cib_conn->cmds->query(cib_conn, xpath, NULL, cib_xpath|cib_sync_call);
if (rc == -ENXIO) { // Only add if not already existing
xmlNode *cib_object = pcmk__xe_create(NULL, PCMK_XE_NODE);
crm_xml_add(cib_object, PCMK_XA_ID, node); // Use node name as ID
crm_xml_add(cib_object, PCMK_XA_UNAME, node);
cib_conn->cmds->create(cib_conn, PCMK_XE_NODES, cib_object,
cib_sync_call);
/* Not bothering with subsequent query to see if it exists,
we'll bomb out later in the call to query_node_uuid()... */
pcmk__xml_free(cib_object);
}
free(xpath);
}
/*!
* \internal
* \brief Synthesize a fake executor event for an action
*
* \param[in] cib_resource XML for any existing resource action history
* \param[in] task Name of action to synthesize
* \param[in] interval_ms Interval of action to synthesize
* \param[in] outcome Result of action to synthesize
*
* \return Newly allocated executor event
* \note It is the caller's responsibility to free the result with
* lrmd_free_event().
*/
static lrmd_event_data_t *
create_op(const xmlNode *cib_resource, const char *task, guint interval_ms,
int outcome)
{
lrmd_event_data_t *op = NULL;
xmlNode *xop = NULL;
op = lrmd_new_event(pcmk__xe_id(cib_resource), task, interval_ms);
lrmd__set_result(op, outcome, PCMK_EXEC_DONE, "Simulated action result");
op->params = NULL; // Not needed for simulation purposes
op->t_run = time(NULL);
op->t_rcchange = op->t_run;
// Use a call ID higher than any existing history entries
op->call_id = 0;
for (xop = pcmk__xe_first_child(cib_resource, NULL, NULL, NULL);
xop != NULL; xop = pcmk__xe_next(xop, NULL)) {
int tmp = 0;
crm_element_value_int(xop, PCMK__XA_CALL_ID, &tmp);
if (tmp > op->call_id) {
op->call_id = tmp;
}
}
op->call_id++;
return op;
}
/*!
* \internal
* \brief Inject a fictitious resource history entry into a scheduler input
*
* \param[in,out] cib_resource Resource history XML to inject entry into
* \param[in,out] op Action result to inject
* \param[in] node Name of node where the action occurred
* \param[in] target_rc Expected result for action to inject
*
* \return XML of injected resource history entry
*/
xmlNode *
pcmk__inject_action_result(xmlNode *cib_resource, lrmd_event_data_t *op,
const char *node, int target_rc)
{
return pcmk__create_history_xml(cib_resource, op, CRM_FEATURE_SET,
target_rc, node, crm_system_name);
}
/*!
* \internal
* \brief Inject a fictitious node into a scheduler input
*
* \param[in,out] cib_conn Scheduler input CIB to inject node into
* \param[in] node Name of node to inject
* \param[in] uuid UUID of node to inject
*
* \return XML of \c PCMK__XE_NODE_STATE entry for new node
* \note If the global pcmk__simulate_node_config has been set to true, a
* node entry in the configuration section will be added, as well as a
* node state entry in the status section.
*/
xmlNode *
pcmk__inject_node(cib_t *cib_conn, const char *node, const char *uuid)
{
int rc = pcmk_ok;
xmlNode *cib_object = NULL;
char *xpath = crm_strdup_printf(XPATH_NODE_STATE, node);
bool duplicate = false;
char *found_uuid = NULL;
if (pcmk__simulate_node_config) {
create_node_entry(cib_conn, node);
}
rc = cib_conn->cmds->query(cib_conn, xpath, &cib_object,
cib_xpath|cib_sync_call);
if ((cib_object != NULL) && (pcmk__xe_id(cib_object) == NULL)) {
crm_err("Detected multiple " PCMK__XE_NODE_STATE " entries for "
"xpath=%s, bailing",
xpath);
duplicate = true;
goto done;
}
if (rc == -ENXIO) {
if (uuid == NULL) {
query_node_uuid(cib_conn, node, &found_uuid, NULL);
} else {
found_uuid = strdup(uuid);
}
if (found_uuid) {
char *xpath_by_uuid = crm_strdup_printf(XPATH_NODE_STATE_BY_ID,
found_uuid);
/* It's possible that a PCMK__XE_NODE_STATE entry doesn't have a
* PCMK_XA_UNAME yet
*/
rc = cib_conn->cmds->query(cib_conn, xpath_by_uuid, &cib_object,
cib_xpath|cib_sync_call);
if ((cib_object != NULL) && (pcmk__xe_id(cib_object) == NULL)) {
crm_err("Can't inject node state for %s because multiple "
"state entries found for ID %s", node, found_uuid);
duplicate = true;
free(xpath_by_uuid);
goto done;
} else if (cib_object != NULL) {
crm_xml_add(cib_object, PCMK_XA_UNAME, node);
rc = cib_conn->cmds->modify(cib_conn, PCMK_XE_STATUS,
cib_object, cib_sync_call);
}
free(xpath_by_uuid);
}
}
if (rc == -ENXIO) {
cib_object = pcmk__xe_create(NULL, PCMK__XE_NODE_STATE);
crm_xml_add(cib_object, PCMK_XA_ID, found_uuid);
crm_xml_add(cib_object, PCMK_XA_UNAME, node);
cib_conn->cmds->create(cib_conn, PCMK_XE_STATUS, cib_object,
cib_sync_call);
pcmk__xml_free(cib_object);
rc = cib_conn->cmds->query(cib_conn, xpath, &cib_object,
cib_xpath|cib_sync_call);
crm_trace("Injecting node state for %s (rc=%d)", node, rc);
}
done:
free(found_uuid);
free(xpath);
if (duplicate) {
crm_log_xml_warn(cib_object, "Duplicates");
crm_exit(CRM_EX_SOFTWARE);
return NULL; // not reached, but makes static analysis happy
}
pcmk__assert(rc == pcmk_ok);
return cib_object;
}
/*!
* \internal
* \brief Inject a fictitious node state change into a scheduler input
*
* \param[in,out] cib_conn Scheduler input CIB to inject into
* \param[in] node Name of node to inject change for
* \param[in] up If true, change state to online, otherwise offline
*
* \return XML of changed (or added) node state entry
*/
xmlNode *
pcmk__inject_node_state_change(cib_t *cib_conn, const char *node, bool up)
{
xmlNode *cib_node = pcmk__inject_node(cib_conn, node, NULL);
if (up) {
pcmk__xe_set_props(cib_node,
PCMK__XA_IN_CCM, PCMK_VALUE_TRUE,
PCMK_XA_CRMD, PCMK_VALUE_ONLINE,
PCMK__XA_JOIN, CRMD_JOINSTATE_MEMBER,
PCMK_XA_EXPECTED, CRMD_JOINSTATE_MEMBER,
NULL);
} else {
pcmk__xe_set_props(cib_node,
PCMK__XA_IN_CCM, PCMK_VALUE_FALSE,
PCMK_XA_CRMD, PCMK_VALUE_OFFLINE,
PCMK__XA_JOIN, CRMD_JOINSTATE_DOWN,
PCMK_XA_EXPECTED, CRMD_JOINSTATE_DOWN,
NULL);
}
crm_xml_add(cib_node, PCMK_XA_CRM_DEBUG_ORIGIN, crm_system_name);
return cib_node;
}
/*!
* \internal
* \brief Check whether a node has history for a given resource
*
* \param[in,out] cib_node Node state XML to check
* \param[in] resource Resource name to check for
*
* \return Resource's \c PCMK__XE_LRM_RESOURCE XML entry beneath \p cib_node if
* found, otherwise \c NULL
*/
static xmlNode *
find_resource_xml(xmlNode *cib_node, const char *resource)
{
const char *node = crm_element_value(cib_node, PCMK_XA_UNAME);
char *xpath = crm_strdup_printf(XPATH_RSC_HISTORY, node, resource);
xmlNode *match = get_xpath_object(xpath, cib_node, LOG_TRACE);
free(xpath);
return match;
}
/*!
* \internal
* \brief Inject a resource history element into a scheduler input
*
* \param[in,out] out Output object for displaying error messages
* \param[in,out] cib_node Node state XML to inject resource history entry into
* \param[in] resource ID (in configuration) of resource to inject
* \param[in] lrm_name ID as used in history (could be clone instance)
* \param[in] rclass Resource agent class of resource to inject
* \param[in] rtype Resource agent type of resource to inject
* \param[in] rprovider Resource agent provider of resource to inject
*
* \return XML of injected resource history element
* \note If a history element already exists under either \p resource or
* \p lrm_name, this will return it rather than injecting a new one.
*/
xmlNode *
pcmk__inject_resource_history(pcmk__output_t *out, xmlNode *cib_node,
const char *resource, const char *lrm_name,
const char *rclass, const char *rtype,
const char *rprovider)
{
xmlNode *lrm = NULL;
xmlNode *container = NULL;
xmlNode *cib_resource = NULL;
cib_resource = find_resource_xml(cib_node, resource);
if (cib_resource != NULL) {
/* If an existing LRM history entry uses the resource name,
* continue using it, even if lrm_name is different.
*/
return cib_resource;
}
// Check for history entry under preferred name
if (strcmp(resource, lrm_name) != 0) {
cib_resource = find_resource_xml(cib_node, lrm_name);
if (cib_resource != NULL) {
return cib_resource;
}
}
if ((rclass == NULL) || (rtype == NULL)) {
// @TODO query configuration for class, provider, type
out->err(out,
"Resource %s not found in the status section of %s "
"(supply class and type to continue)",
resource, pcmk__xe_id(cib_node));
return NULL;
} else if (!pcmk__strcase_any_of(rclass,
PCMK_RESOURCE_CLASS_OCF,
PCMK_RESOURCE_CLASS_STONITH,
PCMK_RESOURCE_CLASS_SERVICE,
PCMK_RESOURCE_CLASS_SYSTEMD,
PCMK_RESOURCE_CLASS_LSB, NULL)) {
out->err(out, "Invalid class for %s: %s", resource, rclass);
return NULL;
} else if (pcmk_is_set(pcmk_get_ra_caps(rclass), pcmk_ra_cap_provider)
&& (rprovider == NULL)) {
// @TODO query configuration for provider
out->err(out, "Please specify the provider for resource %s", resource);
return NULL;
}
crm_info("Injecting new resource %s into node state '%s'",
lrm_name, pcmk__xe_id(cib_node));
lrm = pcmk__xe_first_child(cib_node, PCMK__XE_LRM, NULL, NULL);
if (lrm == NULL) {
const char *node_uuid = pcmk__xe_id(cib_node);
lrm = pcmk__xe_create(cib_node, PCMK__XE_LRM);
crm_xml_add(lrm, PCMK_XA_ID, node_uuid);
}
container = pcmk__xe_first_child(lrm, PCMK__XE_LRM_RESOURCES, NULL, NULL);
if (container == NULL) {
container = pcmk__xe_create(lrm, PCMK__XE_LRM_RESOURCES);
}
cib_resource = pcmk__xe_create(container, PCMK__XE_LRM_RESOURCE);
// If we're creating a new entry, use the preferred name
crm_xml_add(cib_resource, PCMK_XA_ID, lrm_name);
crm_xml_add(cib_resource, PCMK_XA_CLASS, rclass);
crm_xml_add(cib_resource, PCMK_XA_PROVIDER, rprovider);
crm_xml_add(cib_resource, PCMK_XA_TYPE, rtype);
return cib_resource;
}
/*!
* \internal
* \brief Inject a ticket attribute into ticket state
*
* \param[in,out] out Output object for displaying error messages
* \param[in] ticket_id Ticket whose state should be changed
* \param[in] attr_name Ticket attribute name to inject
* \param[in] attr_value Boolean value of ticket attribute to inject
* \param[in,out] cib CIB object to use
*
* \return Standard Pacemaker return code
*/
static int
set_ticket_state_attr(pcmk__output_t *out, const char *ticket_id,
const char *attr_name, bool attr_value, cib_t *cib)
{
int rc = pcmk_rc_ok;
xmlNode *xml_top = NULL;
xmlNode *ticket_state_xml = NULL;
// Check for an existing ticket state entry
rc = pcmk__get_ticket_state(cib, ticket_id, &ticket_state_xml);
if (rc == pcmk_rc_duplicate_id) {
out->err(out, "Multiple " PCMK__XE_TICKET_STATE "s match ticket_id=%s",
ticket_id);
rc = pcmk_rc_ok;
}
if (rc == pcmk_rc_ok) { // Ticket state found, use it
crm_debug("Injecting attribute into existing ticket state %s",
ticket_id);
xml_top = ticket_state_xml;
} else if (rc == ENXIO) { // No ticket state, create it
xmlNode *xml_obj = NULL;
xml_top = pcmk__xe_create(NULL, PCMK_XE_STATUS);
xml_obj = pcmk__xe_create(xml_top, PCMK_XE_TICKETS);
ticket_state_xml = pcmk__xe_create(xml_obj, PCMK__XE_TICKET_STATE);
crm_xml_add(ticket_state_xml, PCMK_XA_ID, ticket_id);
} else { // Error
return rc;
}
// Add the attribute to the ticket state
pcmk__xe_set_bool_attr(ticket_state_xml, attr_name, attr_value);
crm_log_xml_debug(xml_top, "Update");
// Commit the change to the CIB
rc = cib->cmds->modify(cib, PCMK_XE_STATUS, xml_top, cib_sync_call);
rc = pcmk_legacy2rc(rc);
pcmk__xml_free(xml_top);
return rc;
}
/*!
* \internal
* \brief Inject a fictitious action into the cluster
*
* \param[in,out] out Output object for displaying error messages
* \param[in] spec Action specification to inject
* \param[in,out] cib CIB object for scheduler input
* \param[in] scheduler Scheduler data
*/
static void
inject_action(pcmk__output_t *out, const char *spec, cib_t *cib,
const pcmk_scheduler_t *scheduler)
{
int rc;
int outcome = PCMK_OCF_OK;
guint interval_ms = 0;
char *key = NULL;
char *node = NULL;
char *task = NULL;
char *resource = NULL;
const char *rtype = NULL;
const char *rclass = NULL;
const char *rprovider = NULL;
xmlNode *cib_op = NULL;
xmlNode *cib_node = NULL;
xmlNode *cib_resource = NULL;
const pcmk_resource_t *rsc = NULL;
lrmd_event_data_t *op = NULL;
+ bool infinity = false;
out->message(out, "inject-spec", spec);
key = pcmk__assert_alloc(1, strlen(spec) + 1);
node = pcmk__assert_alloc(1, strlen(spec) + 1);
rc = sscanf(spec, "%[^@]@%[^=]=%d", key, node, &outcome);
if (rc != 3) {
out->err(out, "Invalid operation spec: %s. Only found %d fields",
spec, rc);
goto done;
}
parse_op_key(key, &resource, &task, &interval_ms);
rsc = pe_find_resource(scheduler->priv->resources, resource);
if (rsc == NULL) {
out->err(out, "Invalid resource name: %s", resource);
goto done;
}
rclass = crm_element_value(rsc->priv->xml, PCMK_XA_CLASS);
rtype = crm_element_value(rsc->priv->xml, PCMK_XA_TYPE);
rprovider = crm_element_value(rsc->priv->xml, PCMK_XA_PROVIDER);
cib_node = pcmk__inject_node(cib, node, NULL);
pcmk__assert(cib_node != NULL);
+ if (pcmk__str_eq(task, PCMK_ACTION_STOP, pcmk__str_none)) {
+ infinity = true;
+
+ } else if (pcmk__str_eq(task, PCMK_ACTION_START, pcmk__str_none)
+ && pcmk_is_set(scheduler->flags,
+ pcmk__sched_start_failure_fatal)) {
+ infinity = true;
+ }
+
pcmk__inject_failcount(out, cib, cib_node, resource, task, interval_ms,
- outcome);
+ outcome, infinity);
cib_resource = pcmk__inject_resource_history(out, cib_node,
resource, resource,
rclass, rtype, rprovider);
pcmk__assert(cib_resource != NULL);
op = create_op(cib_resource, task, interval_ms, outcome);
pcmk__assert(op != NULL);
cib_op = pcmk__inject_action_result(cib_resource, op, node, 0);
pcmk__assert(cib_op != NULL);
lrmd_free_event(op);
rc = cib->cmds->modify(cib, PCMK_XE_STATUS, cib_node, cib_sync_call);
pcmk__assert(rc == pcmk_ok);
done:
free(task);
free(node);
free(key);
}
/*!
* \internal
* \brief Inject fictitious scheduler inputs
*
* \param[in,out] scheduler Scheduler data
* \param[in,out] cib CIB object for scheduler input to modify
* \param[in] injections Injections to apply
*/
void
pcmk__inject_scheduler_input(pcmk_scheduler_t *scheduler, cib_t *cib,
const pcmk_injections_t *injections)
{
int rc = pcmk_ok;
const GList *iter = NULL;
xmlNode *cib_node = NULL;
pcmk__output_t *out = scheduler->priv->out;
out->message(out, "inject-modify-config", injections->quorum,
injections->watchdog);
if (injections->quorum != NULL) {
xmlNode *top = pcmk__xe_create(NULL, PCMK_XE_CIB);
/* crm_xml_add(top, PCMK_XA_DC_UUID, dc_uuid); */
crm_xml_add(top, PCMK_XA_HAVE_QUORUM, injections->quorum);
rc = cib->cmds->modify(cib, NULL, top, cib_sync_call);
pcmk__assert(rc == pcmk_ok);
}
if (injections->watchdog != NULL) {
rc = cib__update_node_attr(out, cib, cib_sync_call, PCMK_XE_CRM_CONFIG,
NULL, NULL, NULL, NULL,
PCMK_OPT_HAVE_WATCHDOG, injections->watchdog,
NULL, NULL);
pcmk__assert(rc == pcmk_rc_ok);
}
for (iter = injections->node_up; iter != NULL; iter = iter->next) {
const char *node = (const char *) iter->data;
out->message(out, "inject-modify-node", "Online", node);
cib_node = pcmk__inject_node_state_change(cib, node, true);
pcmk__assert(cib_node != NULL);
rc = cib->cmds->modify(cib, PCMK_XE_STATUS, cib_node, cib_sync_call);
pcmk__assert(rc == pcmk_ok);
pcmk__xml_free(cib_node);
}
for (iter = injections->node_down; iter != NULL; iter = iter->next) {
const char *node = (const char *) iter->data;
char *xpath = NULL;
out->message(out, "inject-modify-node", "Offline", node);
cib_node = pcmk__inject_node_state_change(cib, node, false);
pcmk__assert(cib_node != NULL);
rc = cib->cmds->modify(cib, PCMK_XE_STATUS, cib_node, cib_sync_call);
pcmk__assert(rc == pcmk_ok);
pcmk__xml_free(cib_node);
xpath = crm_strdup_printf("//" PCMK__XE_NODE_STATE
"[@" PCMK_XA_UNAME "='%s']"
"/" PCMK__XE_LRM,
node);
cib->cmds->remove(cib, xpath, NULL, cib_xpath|cib_sync_call);
free(xpath);
xpath = crm_strdup_printf("//" PCMK__XE_NODE_STATE
"[@" PCMK_XA_UNAME "='%s']"
"/" PCMK__XE_TRANSIENT_ATTRIBUTES,
node);
cib->cmds->remove(cib, xpath, NULL, cib_xpath|cib_sync_call);
free(xpath);
}
for (iter = injections->node_fail; iter != NULL; iter = iter->next) {
const char *node = (const char *) iter->data;
out->message(out, "inject-modify-node", "Failing", node);
cib_node = pcmk__inject_node_state_change(cib, node, true);
crm_xml_add(cib_node, PCMK__XA_IN_CCM, PCMK_VALUE_FALSE);
pcmk__assert(cib_node != NULL);
rc = cib->cmds->modify(cib, PCMK_XE_STATUS, cib_node, cib_sync_call);
pcmk__assert(rc == pcmk_ok);
pcmk__xml_free(cib_node);
}
for (iter = injections->ticket_grant; iter != NULL; iter = iter->next) {
const char *ticket_id = (const char *) iter->data;
out->message(out, "inject-modify-ticket", "Granting", ticket_id);
rc = set_ticket_state_attr(out, ticket_id, PCMK__XA_GRANTED, true, cib);
pcmk__assert(rc == pcmk_rc_ok);
}
for (iter = injections->ticket_revoke; iter != NULL; iter = iter->next) {
const char *ticket_id = (const char *) iter->data;
out->message(out, "inject-modify-ticket", "Revoking", ticket_id);
rc = set_ticket_state_attr(out, ticket_id, PCMK__XA_GRANTED, false,
cib);
pcmk__assert(rc == pcmk_rc_ok);
}
for (iter = injections->ticket_standby; iter != NULL; iter = iter->next) {
const char *ticket_id = (const char *) iter->data;
out->message(out, "inject-modify-ticket", "Standby", ticket_id);
rc = set_ticket_state_attr(out, ticket_id, PCMK_XA_STANDBY, true, cib);
pcmk__assert(rc == pcmk_rc_ok);
}
for (iter = injections->ticket_activate; iter != NULL; iter = iter->next) {
const char *ticket_id = (const char *) iter->data;
out->message(out, "inject-modify-ticket", "Activating", ticket_id);
rc = set_ticket_state_attr(out, ticket_id, PCMK_XA_STANDBY, false, cib);
pcmk__assert(rc == pcmk_rc_ok);
}
for (iter = injections->op_inject; iter != NULL; iter = iter->next) {
inject_action(out, (const char *) iter->data, cib, scheduler);
}
if (!out->is_quiet(out)) {
out->end_list(out);
}
}
void
pcmk_free_injections(pcmk_injections_t *injections)
{
if (injections == NULL) {
return;
}
g_list_free_full(injections->node_up, g_free);
g_list_free_full(injections->node_down, g_free);
g_list_free_full(injections->node_fail, g_free);
g_list_free_full(injections->op_fail, g_free);
g_list_free_full(injections->op_inject, g_free);
g_list_free_full(injections->ticket_grant, g_free);
g_list_free_full(injections->ticket_revoke, g_free);
g_list_free_full(injections->ticket_standby, g_free);
g_list_free_full(injections->ticket_activate, g_free);
free(injections->quorum);
free(injections->watchdog);
free(injections);
}
diff --git a/lib/pacemaker/pcmk_simulate.c b/lib/pacemaker/pcmk_simulate.c
index 7b3080d57e..dadf52c1e3 100644
--- a/lib/pacemaker/pcmk_simulate.c
+++ b/lib/pacemaker/pcmk_simulate.c
@@ -1,1006 +1,1017 @@
/*
* Copyright 2021-2024 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_internal.h>
#include <crm/cib/internal.h>
#include <crm/common/output.h>
#include <crm/common/results.h>
#include <crm/common/scheduler.h>
#include <pacemaker-internal.h>
#include <pacemaker.h>
#include <stdint.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include "libpacemaker_private.h"
static pcmk__output_t *out = NULL;
static cib_t *fake_cib = NULL;
static GList *fake_resource_list = NULL;
static const GList *fake_op_fail_list = NULL;
static void set_effective_date(pcmk_scheduler_t *scheduler, bool print_original,
const char *use_date);
/*!
* \internal
* \brief Create an action name for use in a dot graph
*
* \param[in] action Action to create name for
* \param[in] verbose If true, add action ID to name
*
* \return Newly allocated string with action name
* \note It is the caller's responsibility to free the result.
*/
static char *
create_action_name(const pcmk_action_t *action, bool verbose)
{
char *action_name = NULL;
const char *prefix = "";
const char *action_host = NULL;
const char *history_id = NULL;
const char *task = action->task;
if (action->node != NULL) {
action_host = action->node->priv->name;
} else if (!pcmk_is_set(action->flags, pcmk__action_pseudo)) {
action_host = "<none>";
}
if (pcmk__str_eq(action->task, PCMK_ACTION_CANCEL, pcmk__str_none)) {
prefix = "Cancel ";
task = action->cancel_task;
}
if (action->rsc != NULL) {
history_id = action->rsc->priv->history_id;
}
if (history_id != NULL) {
char *key = NULL;
guint interval_ms = 0;
if (pcmk__guint_from_hash(action->meta, PCMK_META_INTERVAL, 0,
&interval_ms) != pcmk_rc_ok) {
interval_ms = 0;
}
if (pcmk__strcase_any_of(action->task, PCMK_ACTION_NOTIFY,
PCMK_ACTION_NOTIFIED, NULL)) {
const char *n_type = g_hash_table_lookup(action->meta,
"notify_key_type");
const char *n_task = g_hash_table_lookup(action->meta,
"notify_key_operation");
pcmk__assert((n_type != NULL) && (n_task != NULL));
key = pcmk__notify_key(history_id, n_type, n_task);
} else {
key = pcmk__op_key(history_id, task, interval_ms);
}
if (action_host != NULL) {
action_name = crm_strdup_printf("%s%s %s",
prefix, key, action_host);
} else {
action_name = crm_strdup_printf("%s%s", prefix, key);
}
free(key);
} else if (pcmk__str_eq(action->task, PCMK_ACTION_STONITH,
pcmk__str_none)) {
const char *op = g_hash_table_lookup(action->meta,
PCMK__META_STONITH_ACTION);
action_name = crm_strdup_printf("%s%s '%s' %s",
prefix, action->task, op, action_host);
} else if (action->rsc && action_host) {
action_name = crm_strdup_printf("%s%s %s",
prefix, action->uuid, action_host);
} else if (action_host) {
action_name = crm_strdup_printf("%s%s %s",
prefix, action->task, action_host);
} else {
action_name = crm_strdup_printf("%s", action->uuid);
}
if (verbose) {
char *with_id = crm_strdup_printf("%s (%d)", action_name, action->id);
free(action_name);
action_name = with_id;
}
return action_name;
}
/*!
* \internal
* \brief Display the status of a cluster
*
* \param[in,out] scheduler Scheduler data
* \param[in] show_opts How to modify display (as pcmk_show_opt_e flags)
* \param[in] section_opts Sections to display (as pcmk_section_e flags)
* \param[in] title What to use as list title
* \param[in] print_spacer Whether to display a spacer first
*/
static void
print_cluster_status(pcmk_scheduler_t *scheduler, uint32_t show_opts,
uint32_t section_opts, const char *title,
bool print_spacer)
{
pcmk__output_t *out = scheduler->priv->out;
GList *all = NULL;
crm_exit_t stonith_rc = 0;
enum pcmk_pacemakerd_state state = pcmk_pacemakerd_state_invalid;
section_opts |= pcmk_section_nodes | pcmk_section_resources;
show_opts |= pcmk_show_inactive_rscs | pcmk_show_failed_detail;
all = g_list_prepend(all, (gpointer) "*");
PCMK__OUTPUT_SPACER_IF(out, print_spacer);
out->begin_list(out, NULL, NULL, "%s", title);
out->message(out, "cluster-status",
scheduler, state, stonith_rc, NULL,
pcmk__fence_history_none, section_opts, show_opts, NULL,
all, all);
out->end_list(out);
g_list_free(all);
}
/*!
* \internal
* \brief Display a summary of all actions scheduled in a transition
*
* \param[in,out] scheduler Scheduler data (fully scheduled)
* \param[in] print_spacer Whether to display a spacer first
*/
static void
print_transition_summary(pcmk_scheduler_t *scheduler, bool print_spacer)
{
pcmk__output_t *out = scheduler->priv->out;
PCMK__OUTPUT_SPACER_IF(out, print_spacer);
out->begin_list(out, NULL, NULL, "Transition Summary");
pcmk__output_actions(scheduler);
out->end_list(out);
}
/*!
* \internal
* \brief Reset scheduler input, output, date, and flags
*
* \param[in,out] scheduler Scheduler data
* \param[in] input What to set as cluster input
* \param[in] out What to set as cluster output object
* \param[in] use_date What to set as cluster's current timestamp
* \param[in] flags Group of enum pcmk__scheduler_flags to set
*/
static void
reset(pcmk_scheduler_t *scheduler, xmlNodePtr input, pcmk__output_t *out,
const char *use_date, unsigned int flags)
{
scheduler->input = input;
scheduler->priv->out = out;
set_effective_date(scheduler, true, use_date);
if (pcmk_is_set(flags, pcmk_sim_sanitized)) {
pcmk__set_scheduler_flags(scheduler, pcmk__sched_sanitized);
}
if (pcmk_is_set(flags, pcmk_sim_show_scores)) {
pcmk__set_scheduler_flags(scheduler, pcmk__sched_output_scores);
}
if (pcmk_is_set(flags, pcmk_sim_show_utilization)) {
pcmk__set_scheduler_flags(scheduler, pcmk__sched_show_utilization);
}
}
/*!
* \brief Write out a file in dot(1) format describing the actions that will
* be taken by the scheduler in response to an input CIB file.
*
* \param[in,out] scheduler Scheduler data
* \param[in] dot_file The filename to write
* \param[in] all_actions Write all actions, even those that are optional
* or are on unmanaged resources
* \param[in] verbose Add extra information, such as action IDs, to the
* output
*
* \return Standard Pacemaker return code
*/
static int
write_sim_dotfile(pcmk_scheduler_t *scheduler, const char *dot_file,
bool all_actions, bool verbose)
{
GList *iter = NULL;
FILE *dot_strm = fopen(dot_file, "w");
if (dot_strm == NULL) {
return errno;
}
fprintf(dot_strm, " digraph \"g\" {\n");
for (iter = scheduler->priv->actions; iter != NULL; iter = iter->next) {
pcmk_action_t *action = (pcmk_action_t *) iter->data;
const char *style = "dashed";
const char *font = "black";
const char *color = "black";
char *action_name = create_action_name(action, verbose);
if (pcmk_is_set(action->flags, pcmk__action_pseudo)) {
font = "orange";
}
if (pcmk_is_set(action->flags, pcmk__action_added_to_graph)) {
style = PCMK__VALUE_BOLD;
color = "green";
} else if ((action->rsc != NULL)
&& !pcmk_is_set(action->rsc->flags, pcmk__rsc_managed)) {
color = "red";
font = "purple";
if (!all_actions) {
goto do_not_write;
}
} else if (pcmk_is_set(action->flags, pcmk__action_optional)) {
color = "blue";
if (!all_actions) {
goto do_not_write;
}
} else {
color = "red";
CRM_LOG_ASSERT(!pcmk_is_set(action->flags, pcmk__action_runnable));
}
pcmk__set_action_flags(action, pcmk__action_added_to_graph);
fprintf(dot_strm, "\"%s\" [ style=%s color=\"%s\" fontcolor=\"%s\"]\n",
action_name, style, color, font);
do_not_write:
free(action_name);
}
for (iter = scheduler->priv->actions; iter != NULL; iter = iter->next) {
pcmk_action_t *action = (pcmk_action_t *) iter->data;
for (GList *before_iter = action->actions_before;
before_iter != NULL; before_iter = before_iter->next) {
pcmk__related_action_t *before = before_iter->data;
char *before_name = NULL;
char *after_name = NULL;
const char *style = "dashed";
bool optional = true;
if (before->graphed) {
optional = false;
style = PCMK__VALUE_BOLD;
} else if (before->flags == pcmk__ar_none) {
continue;
} else if (pcmk_is_set(before->action->flags,
pcmk__action_added_to_graph)
&& pcmk_is_set(action->flags, pcmk__action_added_to_graph)
&& before->flags != pcmk__ar_if_on_same_node_or_target) {
optional = false;
}
if (all_actions || !optional) {
before_name = create_action_name(before->action, verbose);
after_name = create_action_name(action, verbose);
fprintf(dot_strm, "\"%s\" -> \"%s\" [ style = %s]\n",
before_name, after_name, style);
free(before_name);
free(after_name);
}
}
}
fprintf(dot_strm, "}\n");
fflush(dot_strm);
fclose(dot_strm);
return pcmk_rc_ok;
}
/*!
* \brief Profile the configuration updates and scheduler actions in a single
* CIB file, printing the profiling timings.
*
* \note \p scheduler->priv->out must have been set to a valid \p pcmk__output_t
* object before this function is called.
*
* \param[in] xml_file The CIB file to profile
* \param[in] repeat Number of times to run
* \param[in,out] scheduler Scheduler data
* \param[in] use_date The date to set the cluster's time to (may be NULL)
*/
static void
profile_file(const char *xml_file, long long repeat,
pcmk_scheduler_t *scheduler, const char *use_date)
{
pcmk__output_t *out = scheduler->priv->out;
xmlNode *cib_object = NULL;
clock_t start = 0;
clock_t end;
unsigned long long scheduler_flags = pcmk__sched_none;
pcmk__assert(out != NULL);
cib_object = pcmk__xml_read(xml_file);
start = clock();
if (pcmk_find_cib_element(cib_object, PCMK_XE_STATUS) == NULL) {
pcmk__xe_create(cib_object, PCMK_XE_STATUS);
}
if (pcmk__update_configured_schema(&cib_object, false) != pcmk_rc_ok) {
pcmk__xml_free(cib_object);
return;
}
if (!pcmk__validate_xml(cib_object, NULL, NULL, NULL)) {
pcmk__xml_free(cib_object);
return;
}
if (pcmk_is_set(scheduler->flags, pcmk__sched_output_scores)) {
scheduler_flags |= pcmk__sched_output_scores;
}
if (pcmk_is_set(scheduler->flags, pcmk__sched_show_utilization)) {
scheduler_flags |= pcmk__sched_show_utilization;
}
for (int i = 0; i < repeat; ++i) {
xmlNode *input = cib_object;
if (repeat > 1) {
input = pcmk__xml_copy(NULL, cib_object);
}
scheduler->input = input;
set_effective_date(scheduler, false, use_date);
pcmk__schedule_actions(input, scheduler_flags, scheduler);
pe_reset_working_set(scheduler);
}
end = clock();
out->message(out, "profile", xml_file, start, end);
}
void
pcmk__profile_dir(const char *dir, long long repeat,
pcmk_scheduler_t *scheduler, const char *use_date)
{
pcmk__output_t *out = scheduler->priv->out;
struct dirent **namelist;
int file_num = scandir(dir, &namelist, 0, alphasort);
pcmk__assert(out != NULL);
if (file_num > 0) {
struct stat prop;
char buffer[FILENAME_MAX];
out->begin_list(out, NULL, NULL, "Timings");
while (file_num--) {
if ('.' == namelist[file_num]->d_name[0]) {
free(namelist[file_num]);
continue;
} else if (!pcmk__ends_with_ext(namelist[file_num]->d_name,
".xml")) {
free(namelist[file_num]);
continue;
}
snprintf(buffer, sizeof(buffer), "%s/%s",
dir, namelist[file_num]->d_name);
if (stat(buffer, &prop) == 0 && S_ISREG(prop.st_mode)) {
profile_file(buffer, repeat, scheduler, use_date);
}
free(namelist[file_num]);
}
free(namelist);
out->end_list(out);
}
}
/*!
* \brief Set the date of the cluster, either to the value given by
* \p use_date, or to the \c PCMK_XA_EXECUTION_DATE value in the CIB.
*
* \note \p scheduler->priv->out must have been set to a valid \p pcmk__output_t
* object before this function is called.
*
* \param[in,out] scheduler Scheduler data
* \param[in] print_original If \p true, the \c PCMK_XA_EXECUTION_DATE
* should also be printed
* \param[in] use_date The date to set the cluster's time to
* (may be NULL)
*/
static void
set_effective_date(pcmk_scheduler_t *scheduler, bool print_original,
const char *use_date)
{
pcmk__output_t *out = scheduler->priv->out;
time_t original_date = 0;
pcmk__assert(out != NULL);
crm_element_value_epoch(scheduler->input, PCMK_XA_EXECUTION_DATE,
&original_date);
if (use_date) {
scheduler->priv->now = crm_time_new(use_date);
out->info(out, "Setting effective cluster time: %s", use_date);
crm_time_log(LOG_NOTICE, "Pretending 'now' is", scheduler->priv->now,
crm_time_log_date | crm_time_log_timeofday);
} else if (original_date != 0) {
scheduler->priv->now = pcmk__copy_timet(original_date);
if (print_original) {
char *when = crm_time_as_string(scheduler->priv->now,
crm_time_log_date
|crm_time_log_timeofday);
out->info(out, "Using the original execution date of: %s", when);
free(when);
}
}
}
/*!
* \internal
* \brief Simulate successfully executing a pseudo-action in a graph
*
* \param[in,out] graph Graph to update with pseudo-action result
* \param[in,out] action Pseudo-action to simulate executing
*
* \return Standard Pacemaker return code
*/
static int
simulate_pseudo_action(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
const char *node = crm_element_value(action->xml, PCMK__META_ON_NODE);
const char *task = crm_element_value(action->xml, PCMK__XA_OPERATION_KEY);
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
out->message(out, "inject-pseudo-action", node, task);
pcmk__update_graph(graph, action);
return pcmk_rc_ok;
}
/*!
* \internal
* \brief Simulate executing a resource action in a graph
*
* \param[in,out] graph Graph to update with resource action result
* \param[in,out] action Resource action to simulate executing
*
* \return Standard Pacemaker return code
*/
static int
simulate_resource_action(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
int rc;
lrmd_event_data_t *op = NULL;
int target_outcome = PCMK_OCF_OK;
const char *rtype = NULL;
const char *rclass = NULL;
const char *resource = NULL;
const char *rprovider = NULL;
const char *resource_config_name = NULL;
const char *operation = crm_element_value(action->xml, PCMK_XA_OPERATION);
const char *target_rc_s = crm_meta_value(action->params,
PCMK__META_OP_TARGET_RC);
xmlNode *cib_node = NULL;
xmlNode *cib_resource = NULL;
xmlNode *action_rsc = pcmk__xe_first_child(action->xml, PCMK_XE_PRIMITIVE,
NULL, NULL);
char *node = crm_element_value_copy(action->xml, PCMK__META_ON_NODE);
char *uuid = NULL;
const char *router_node = crm_element_value(action->xml,
PCMK__XA_ROUTER_NODE);
// Certain actions don't need to be displayed or history entries
if (pcmk__str_eq(operation, CRM_OP_REPROBE, pcmk__str_none)) {
crm_debug("No history injection for %s op on %s", operation, node);
goto done; // Confirm action and update graph
}
if (action_rsc == NULL) { // Shouldn't be possible
crm_log_xml_err(action->xml, "Bad");
free(node);
return EPROTO;
}
/* A resource might be known by different names in the configuration and in
* the action (for example, a clone instance). Grab the configuration name
* (which is preferred when writing history), and if necessary, the instance
* name.
*/
resource_config_name = crm_element_value(action_rsc, PCMK_XA_ID);
if (resource_config_name == NULL) { // Shouldn't be possible
crm_log_xml_err(action->xml, "No ID");
free(node);
return EPROTO;
}
resource = resource_config_name;
if (pe_find_resource(fake_resource_list, resource) == NULL) {
const char *longname = crm_element_value(action_rsc, PCMK__XA_LONG_ID);
if ((longname != NULL)
&& (pe_find_resource(fake_resource_list, longname) != NULL)) {
resource = longname;
}
}
// Certain actions need to be displayed but don't need history entries
if (pcmk__strcase_any_of(operation, PCMK_ACTION_DELETE,
PCMK_ACTION_META_DATA, NULL)) {
out->message(out, "inject-rsc-action", resource, operation, node,
(guint) 0);
goto done; // Confirm action and update graph
}
rclass = crm_element_value(action_rsc, PCMK_XA_CLASS);
rtype = crm_element_value(action_rsc, PCMK_XA_TYPE);
rprovider = crm_element_value(action_rsc, PCMK_XA_PROVIDER);
pcmk__scan_min_int(target_rc_s, &target_outcome, 0);
pcmk__assert(fake_cib->cmds->query(fake_cib, NULL, NULL,
cib_sync_call) == pcmk_ok);
// Ensure the action node is in the CIB
uuid = crm_element_value_copy(action->xml, PCMK__META_ON_NODE_UUID);
cib_node = pcmk__inject_node(fake_cib, node,
((router_node == NULL)? uuid: node));
free(uuid);
pcmk__assert(cib_node != NULL);
// Add a history entry for the action
cib_resource = pcmk__inject_resource_history(out, cib_node, resource,
resource_config_name,
rclass, rtype, rprovider);
if (cib_resource == NULL) {
crm_err("Could not simulate action %d history for resource %s",
action->id, resource);
free(node);
pcmk__xml_free(cib_node);
return EINVAL;
}
// Simulate and display an executor event for the action result
op = pcmk__event_from_graph_action(cib_resource, action, PCMK_EXEC_DONE,
target_outcome, "User-injected result");
out->message(out, "inject-rsc-action", resource, op->op_type, node,
op->interval_ms);
// Check whether action is in a list of desired simulated failures
for (const GList *iter = fake_op_fail_list;
iter != NULL; iter = iter->next) {
const char *spec = (const char *) iter->data;
char *key = NULL;
const char *match_name = NULL;
+ const char *offset = NULL;
// Allow user to specify anonymous clone with or without instance number
key = crm_strdup_printf(PCMK__OP_FMT "@%s=", resource, op->op_type,
op->interval_ms, node);
if (strncasecmp(key, spec, strlen(key)) == 0) {
match_name = resource;
}
free(key);
// If not found, try the resource's name in the configuration
if ((match_name == NULL)
&& (strcmp(resource, resource_config_name) != 0)) {
key = crm_strdup_printf(PCMK__OP_FMT "@%s=", resource_config_name,
op->op_type, op->interval_ms, node);
if (strncasecmp(key, spec, strlen(key)) == 0) {
match_name = resource_config_name;
}
free(key);
}
if (match_name == NULL) {
continue; // This failed action entry doesn't match
}
// ${match_name}_${task}_${interval_in_ms}@${node}=${rc}
rc = sscanf(spec, "%*[^=]=%d", (int *) &op->rc);
if (rc != 1) {
out->err(out, "Invalid failed operation '%s' "
"(result code must be integer)", spec);
continue; // Keep checking other list entries
}
out->info(out, "Pretending action %d failed with rc=%d",
action->id, op->rc);
pcmk__set_graph_action_flags(action, pcmk__graph_action_failed);
graph->abort_priority = PCMK_SCORE_INFINITY;
+
+ if (pcmk__str_eq(op->op_type, PCMK_ACTION_START, pcmk__str_none)) {
+ offset = pcmk__s(graph->failed_start_offset, PCMK_VALUE_INFINITY);
+
+ } else if (pcmk__str_eq(op->op_type, PCMK_ACTION_STOP,
+ pcmk__str_none)) {
+ offset = pcmk__s(graph->failed_stop_offset, PCMK_VALUE_INFINITY);
+ }
+
pcmk__inject_failcount(out, fake_cib, cib_node, match_name, op->op_type,
- op->interval_ms, op->rc);
+ op->interval_ms, op->rc,
+ pcmk_str_is_infinity(offset));
break;
}
pcmk__inject_action_result(cib_resource, op, node, target_outcome);
lrmd_free_event(op);
rc = fake_cib->cmds->modify(fake_cib, PCMK_XE_STATUS, cib_node,
cib_sync_call);
pcmk__assert(rc == pcmk_ok);
done:
free(node);
pcmk__xml_free(cib_node);
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
pcmk__update_graph(graph, action);
return pcmk_rc_ok;
}
/*!
* \internal
* \brief Simulate successfully executing a cluster action
*
* \param[in,out] graph Graph to update with action result
* \param[in,out] action Cluster action to simulate
*
* \return Standard Pacemaker return code
*/
static int
simulate_cluster_action(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
const char *node = crm_element_value(action->xml, PCMK__META_ON_NODE);
const char *task = crm_element_value(action->xml, PCMK_XA_OPERATION);
xmlNode *rsc = pcmk__xe_first_child(action->xml, PCMK_XE_PRIMITIVE, NULL,
NULL);
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
out->message(out, "inject-cluster-action", node, task, rsc);
pcmk__update_graph(graph, action);
return pcmk_rc_ok;
}
/*!
* \internal
* \brief Simulate successfully executing a fencing action
*
* \param[in,out] graph Graph to update with action result
* \param[in,out] action Fencing action to simulate
*
* \return Standard Pacemaker return code
*/
static int
simulate_fencing_action(pcmk__graph_t *graph, pcmk__graph_action_t *action)
{
const char *op = crm_meta_value(action->params, PCMK__META_STONITH_ACTION);
char *target = crm_element_value_copy(action->xml, PCMK__META_ON_NODE);
out->message(out, "inject-fencing-action", target, op);
if (!pcmk__str_eq(op, PCMK_ACTION_ON, pcmk__str_casei)) {
int rc = pcmk_ok;
GString *xpath = g_string_sized_new(512);
// Set node state to offline
xmlNode *cib_node = pcmk__inject_node_state_change(fake_cib, target,
false);
pcmk__assert(cib_node != NULL);
crm_xml_add(cib_node, PCMK_XA_CRM_DEBUG_ORIGIN, __func__);
rc = fake_cib->cmds->replace(fake_cib, PCMK_XE_STATUS, cib_node,
cib_sync_call);
pcmk__assert(rc == pcmk_ok);
// Simulate controller clearing node's resource history and attributes
pcmk__g_strcat(xpath,
"//" PCMK__XE_NODE_STATE
"[@" PCMK_XA_UNAME "='", target, "']/" PCMK__XE_LRM,
NULL);
fake_cib->cmds->remove(fake_cib, (const char *) xpath->str, NULL,
cib_xpath|cib_sync_call);
g_string_truncate(xpath, 0);
pcmk__g_strcat(xpath,
"//" PCMK__XE_NODE_STATE
"[@" PCMK_XA_UNAME "='", target, "']"
"/" PCMK__XE_TRANSIENT_ATTRIBUTES, NULL);
fake_cib->cmds->remove(fake_cib, (const char *) xpath->str, NULL,
cib_xpath|cib_sync_call);
pcmk__xml_free(cib_node);
g_string_free(xpath, TRUE);
}
pcmk__set_graph_action_flags(action, pcmk__graph_action_confirmed);
pcmk__update_graph(graph, action);
free(target);
return pcmk_rc_ok;
}
enum pcmk__graph_status
pcmk__simulate_transition(pcmk_scheduler_t *scheduler, cib_t *cib,
const GList *op_fail_list)
{
pcmk__graph_t *transition = NULL;
enum pcmk__graph_status graph_rc;
pcmk__graph_functions_t simulation_fns = {
simulate_pseudo_action,
simulate_resource_action,
simulate_cluster_action,
simulate_fencing_action,
};
out = scheduler->priv->out;
fake_cib = cib;
fake_op_fail_list = op_fail_list;
if (!out->is_quiet(out)) {
out->begin_list(out, NULL, NULL, "Executing Cluster Transition");
}
pcmk__set_graph_functions(&simulation_fns);
transition = pcmk__unpack_graph(scheduler->priv->graph, crm_system_name);
pcmk__log_graph(LOG_DEBUG, transition);
fake_resource_list = scheduler->priv->resources;
do {
graph_rc = pcmk__execute_graph(transition);
} while (graph_rc == pcmk__graph_active);
fake_resource_list = NULL;
if (graph_rc != pcmk__graph_complete) {
out->err(out, "Transition failed: %s",
pcmk__graph_status2text(graph_rc));
pcmk__log_graph(LOG_ERR, transition);
out->err(out, "An invalid transition was produced");
}
pcmk__free_graph(transition);
if (!out->is_quiet(out)) {
// If not quiet, we'll need the resulting CIB for later display
xmlNode *cib_object = NULL;
int rc = fake_cib->cmds->query(fake_cib, NULL, &cib_object,
cib_sync_call);
pcmk__assert(rc == pcmk_ok);
pe_reset_working_set(scheduler);
scheduler->input = cib_object;
out->end_list(out);
}
return graph_rc;
}
int
pcmk__simulate(pcmk_scheduler_t *scheduler, pcmk__output_t *out,
const pcmk_injections_t *injections, unsigned int flags,
uint32_t section_opts, const char *use_date,
const char *input_file, const char *graph_file,
const char *dot_file)
{
int printed = pcmk_rc_no_output;
int rc = pcmk_rc_ok;
xmlNodePtr input = NULL;
cib_t *cib = NULL;
rc = cib__signon_query(out, &cib, &input);
if (rc != pcmk_rc_ok) {
goto simulate_done;
}
reset(scheduler, input, out, use_date, flags);
cluster_status(scheduler);
if (!out->is_quiet(out)) {
const bool show_pending = pcmk_is_set(flags, pcmk_sim_show_pending);
if (pcmk_is_set(scheduler->flags, pcmk__sched_in_maintenance)) {
printed = out->message(out, "maint-mode", scheduler->flags);
}
if ((scheduler->priv->disabled_resources > 0)
|| (scheduler->priv->blocked_resources > 0)) {
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
printed = out->info(out,
"%d of %d resource instances DISABLED and "
"%d BLOCKED from further action due to failure",
scheduler->priv->disabled_resources,
scheduler->priv->ninstances,
scheduler->priv->blocked_resources);
}
/* Most formatted output headers use caps for each word, but this one
* only has the first word capitalized for compatibility with pcs.
*/
print_cluster_status(scheduler, (show_pending? pcmk_show_pending : 0),
section_opts, "Current cluster status",
(printed == pcmk_rc_ok));
printed = pcmk_rc_ok;
}
// If the user requested any injections, handle them
if ((injections->node_down != NULL)
|| (injections->node_fail != NULL)
|| (injections->node_up != NULL)
|| (injections->op_inject != NULL)
|| (injections->ticket_activate != NULL)
|| (injections->ticket_grant != NULL)
|| (injections->ticket_revoke != NULL)
|| (injections->ticket_standby != NULL)
|| (injections->watchdog != NULL)) {
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
pcmk__inject_scheduler_input(scheduler, cib, injections);
printed = pcmk_rc_ok;
rc = cib->cmds->query(cib, NULL, &input, cib_sync_call);
if (rc != pcmk_rc_ok) {
rc = pcmk_legacy2rc(rc);
goto simulate_done;
}
cleanup_calculations(scheduler);
reset(scheduler, input, out, use_date, flags);
cluster_status(scheduler);
}
if (input_file != NULL) {
rc = pcmk__xml_write_file(input, input_file, false);
if (rc != pcmk_rc_ok) {
goto simulate_done;
}
}
if (pcmk_any_flags_set(flags, pcmk_sim_process | pcmk_sim_simulate)) {
pcmk__output_t *logger_out = NULL;
unsigned long long scheduler_flags = pcmk__sched_none;
if (pcmk_is_set(scheduler->flags, pcmk__sched_output_scores)) {
scheduler_flags |= pcmk__sched_output_scores;
}
if (pcmk_is_set(scheduler->flags, pcmk__sched_show_utilization)) {
scheduler_flags |= pcmk__sched_show_utilization;
}
if (pcmk_all_flags_set(scheduler->flags,
pcmk__sched_output_scores
|pcmk__sched_show_utilization)) {
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
out->begin_list(out, NULL, NULL,
"Assignment Scores and Utilization Information");
printed = pcmk_rc_ok;
} else if (pcmk_is_set(scheduler->flags, pcmk__sched_output_scores)) {
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
out->begin_list(out, NULL, NULL, "Assignment Scores");
printed = pcmk_rc_ok;
} else if (pcmk_is_set(scheduler->flags, pcmk__sched_show_utilization)) {
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
out->begin_list(out, NULL, NULL, "Utilization Information");
printed = pcmk_rc_ok;
} else {
rc = pcmk__log_output_new(&logger_out);
if (rc != pcmk_rc_ok) {
goto simulate_done;
}
pe__register_messages(logger_out);
pcmk__register_lib_messages(logger_out);
scheduler->priv->out = logger_out;
}
pcmk__schedule_actions(input, scheduler_flags, scheduler);
if (logger_out == NULL) {
out->end_list(out);
} else {
logger_out->finish(logger_out, CRM_EX_OK, true, NULL);
pcmk__output_free(logger_out);
scheduler->priv->out = out;
}
input = NULL; /* Don't try and free it twice */
if (graph_file != NULL) {
rc = pcmk__xml_write_file(scheduler->priv->graph, graph_file,
false);
if (rc != pcmk_rc_ok) {
rc = pcmk_rc_graph_error;
goto simulate_done;
}
}
if (dot_file != NULL) {
rc = write_sim_dotfile(scheduler, dot_file,
pcmk_is_set(flags, pcmk_sim_all_actions),
pcmk_is_set(flags, pcmk_sim_verbose));
if (rc != pcmk_rc_ok) {
rc = pcmk_rc_dot_error;
goto simulate_done;
}
}
if (!out->is_quiet(out)) {
print_transition_summary(scheduler, printed == pcmk_rc_ok);
}
}
rc = pcmk_rc_ok;
if (!pcmk_is_set(flags, pcmk_sim_simulate)) {
goto simulate_done;
}
PCMK__OUTPUT_SPACER_IF(out, printed == pcmk_rc_ok);
if (pcmk__simulate_transition(scheduler, cib, injections->op_fail)
!= pcmk__graph_complete) {
rc = pcmk_rc_invalid_transition;
}
if (out->is_quiet(out)) {
goto simulate_done;
}
set_effective_date(scheduler, true, use_date);
if (pcmk_is_set(flags, pcmk_sim_show_scores)) {
pcmk__set_scheduler_flags(scheduler, pcmk__sched_output_scores);
}
if (pcmk_is_set(flags, pcmk_sim_show_utilization)) {
pcmk__set_scheduler_flags(scheduler, pcmk__sched_show_utilization);
}
cluster_status(scheduler);
print_cluster_status(scheduler, 0, section_opts, "Revised Cluster Status",
true);
simulate_done:
cib__clean_up_connection(&cib);
return rc;
}
int
pcmk_simulate(xmlNodePtr *xml, pcmk_scheduler_t *scheduler,
const pcmk_injections_t *injections, unsigned int flags,
unsigned int section_opts, const char *use_date,
const char *input_file, const char *graph_file,
const char *dot_file)
{
pcmk__output_t *out = NULL;
int rc = pcmk_rc_ok;
rc = pcmk__xml_output_new(&out, xml);
if (rc != pcmk_rc_ok) {
return rc;
}
pe__register_messages(out);
pcmk__register_lib_messages(out);
rc = pcmk__simulate(scheduler, out, injections, flags, section_opts,
use_date, input_file, graph_file, dot_file);
pcmk__xml_output_finish(out, pcmk_rc2exitc(rc), xml);
return rc;
}

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