#pragma once /* * Copyright (c) 2016 MariaDB Corporation Ab * * Use of this software is governed by the Business Source License included * in the LICENSE.TXT file and at www.mariadb.com/bsl11. * * Change Date: 2019-07-01 * * On the date above, in accordance with the Business Source License, use * of this software will be governed by version 2 or later of the General * Public License. */ /** * @file include/maxscale/monitor.h - The public monitor interface */ #include #include #include #include #include MXS_BEGIN_DECLS struct mxs_monitor; typedef struct mxs_monitor MXS_MONITOR; /** * @verbatim * The "module object" structure for a backend monitor module * * Monitor modules monitor the backend databases that MaxScale connects to. * The information provided by a monitor is used in routing decisions. * * The entry points are: * startMonitor Called by main to start the monitor * stopMonitor Called by main to shut down and destroy a monitor * diagnostics Called for diagnostic output * * startMonitor is called to start the monitoring process, it is called on the * MaxScale main thread and is responsible for creating a thread for the monitor * itself to run on. This should use the entry points defined in the thread.h * header file rather than make direct calls to the operating system threading * libraries. The return from startMonitor is a pointer that will be passed to * all other monitor API calls. * * @endverbatim * * @see load_module */ typedef struct mxs_monitor_object { void *(*startMonitor)(MXS_MONITOR *monitor, const MXS_CONFIG_PARAMETER *params); void (*stopMonitor)(MXS_MONITOR *monitor); void (*diagnostics)(DCB *, const MXS_MONITOR *); } MXS_MONITOR_OBJECT; /** * The monitor API version number. Any change to the monitor module API * must change these versions using the rules defined in modinfo.h */ #define MXS_MONITOR_VERSION {3, 0, 0} /** Monitor's poll frequency */ #define MXS_MON_BASE_INTERVAL_MS 100 #define MXS_MONITOR_RUNNING 1 #define MXS_MONITOR_STOPPING 2 #define MXS_MONITOR_STOPPED 3 #define MXS_MONITOR_DEFAULT_ID 1UL // unsigned long value #define MAX_MONITOR_USER_LEN 512 #define MAX_MONITOR_PASSWORD_LEN 512 /** * Monitor state bit mask values */ typedef enum { MONITOR_STATE_ALLOC = 0x00, MONITOR_STATE_RUNNING = 0x01, MONITOR_STATE_STOPPING = 0x02, MONITOR_STATE_STOPPED = 0x04, MONITOR_STATE_FREED = 0x08 } monitor_state_t; /* * Results of attempt at database connection for monitoring */ typedef enum { MONITOR_CONN_OK, MONITOR_CONN_REFUSED, MONITOR_CONN_TIMEOUT } mxs_connect_result_t; /** Monitor events */ typedef enum { UNDEFINED_EVENT = 0, MASTER_DOWN_EVENT = (1 << 0), /**< master_down */ MASTER_UP_EVENT = (1 << 1), /**< master_up */ SLAVE_DOWN_EVENT = (1 << 2), /**< slave_down */ SLAVE_UP_EVENT = (1 << 3), /**< slave_up */ SERVER_DOWN_EVENT = (1 << 4), /**< server_down */ SERVER_UP_EVENT = (1 << 5), /**< server_up */ SYNCED_DOWN_EVENT = (1 << 6), /**< synced_down */ SYNCED_UP_EVENT = (1 << 7), /**< synced_up */ DONOR_DOWN_EVENT = (1 << 8), /**< donor_down */ DONOR_UP_EVENT = (1 << 9), /**< donor_up */ NDB_DOWN_EVENT = (1 << 10), /**< ndb_down */ NDB_UP_EVENT = (1 << 11), /**< ndb_up */ LOST_MASTER_EVENT = (1 << 12), /**< lost_master */ LOST_SLAVE_EVENT = (1 << 13), /**< lost_slave */ LOST_SYNCED_EVENT = (1 << 14), /**< lost_synced */ LOST_DONOR_EVENT = (1 << 15), /**< lost_donor */ LOST_NDB_EVENT = (1 << 16), /**< lost_ndb */ NEW_MASTER_EVENT = (1 << 17), /**< new_master */ NEW_SLAVE_EVENT = (1 << 18), /**< new_slave */ NEW_SYNCED_EVENT = (1 << 19), /**< new_synced */ NEW_DONOR_EVENT = (1 << 20), /**< new_donor */ NEW_NDB_EVENT = (1 << 21), /**< new_ndb */ } mxs_monitor_event_t; /** * The linked list of servers that are being monitored by the monitor module. */ typedef struct monitor_servers { SERVER *server; /**< The server being monitored */ MYSQL *con; /**< The MySQL connection */ bool log_version_err; int mon_err_count; unsigned int mon_prev_status; unsigned int pending_status; /**< Pending Status flag bitmap */ struct monitor_servers *next; /**< The next server in the list */ } MXS_MONITOR_SERVERS; /** * Representation of the running monitor. */ struct mxs_monitor { char *name; /**< The name of the monitor module */ char user[MAX_MONITOR_USER_LEN]; /*< Monitor username */ char password[MAX_MONITOR_PASSWORD_LEN]; /*< Monitor password */ SPINLOCK lock; MXS_CONFIG_PARAMETER* parameters; /*< configuration parameters */ MXS_MONITOR_SERVERS* databases; /*< List of databases the monitor monitors */ monitor_state_t state; /**< The state of the monitor */ int connect_timeout; /**< Connect timeout in seconds for mysql_real_connect */ int read_timeout; /**< Timeout in seconds to read from the server. * There are retries and the total effective timeout * value is three times the option value. */ int write_timeout; /**< Timeout in seconds for each attempt to write to the server. * There are retries and the total effective timeout value is * two times the option value. */ MXS_MONITOR_OBJECT *module; /**< The "monitor object" */ char *module_name; /**< Name of the monitor module */ void *handle; /**< Handle returned from startMonitor */ size_t interval; /**< The monitor interval */ bool created_online; /**< Whether this monitor was created at runtime */ volatile bool server_pending_changes; /**< Are there any pending changes to a server? * If yes, the next monitor loop starts early. */ struct mxs_monitor *next; /**< Next monitor in the linked list */ }; static const MXS_ENUM_VALUE mxs_monitor_event_enum_values[] = { {"master_down", MASTER_DOWN_EVENT}, {"master_up", MASTER_UP_EVENT}, {"slave_down", SLAVE_DOWN_EVENT}, {"slave_up", SLAVE_UP_EVENT}, {"server_down", SERVER_DOWN_EVENT}, {"server_up", SERVER_UP_EVENT}, {"synced_down", SYNCED_DOWN_EVENT}, {"synced_up", SYNCED_UP_EVENT}, {"donor_down", DONOR_DOWN_EVENT}, {"donor_up", DONOR_UP_EVENT}, {"ndb_down", NDB_DOWN_EVENT}, {"ndb_up", NDB_UP_EVENT}, {"lost_master", LOST_MASTER_EVENT}, {"lost_slave", LOST_SLAVE_EVENT}, {"lost_synced", LOST_SYNCED_EVENT}, {"lost_donor", LOST_DONOR_EVENT}, {"lost_ndb", LOST_NDB_EVENT}, {"new_master", NEW_MASTER_EVENT}, {"new_slave", NEW_SLAVE_EVENT}, {"new_synced", NEW_SYNCED_EVENT}, {"new_donor", NEW_DONOR_EVENT}, {"new_ndb", NEW_NDB_EVENT}, {NULL} }; /** Default value for the `events` parameter */ static const char MXS_MONITOR_EVENT_DEFAULT_VALUE[] = "master_down,master_up,slave_down," "slave_up,server_down,server_up,synced_down,synced_up,donor_down,donor_up," "ndb_down,ndb_up,lost_master,lost_slave,lost_synced,lost_donor,lost_ndb," "new_master,new_slave,new_synced,new_donor,new_ndb"; bool check_monitor_permissions(MXS_MONITOR* monitor, const char* query); void monitor_clear_pending_status(MXS_MONITOR_SERVERS *ptr, int bit); void monitor_set_pending_status(MXS_MONITOR_SERVERS *ptr, int bit); void servers_status_pending_to_current(MXS_MONITOR *monitor); void servers_status_current_to_pending(MXS_MONITOR *monitor); bool mon_status_changed(MXS_MONITOR_SERVERS* mon_srv); bool mon_print_fail_status(MXS_MONITOR_SERVERS* mon_srv); mxs_connect_result_t mon_connect_to_db(MXS_MONITOR* mon, MXS_MONITOR_SERVERS *database); void mon_log_connect_error(MXS_MONITOR_SERVERS* database, mxs_connect_result_t rval); void lock_monitor_servers(MXS_MONITOR *monitor); void release_monitor_servers(MXS_MONITOR *monitor); /** * @brief Handle state change events * * This function should be called by all monitors at the end of each monitoring * cycle. This will log state changes and execute any scripts that should be executed. * * @param monitor Monitor object * @param script Script to execute or NULL for no script * @param events Enabled events */ void mon_process_state_changes(MXS_MONITOR *monitor, const char *script, uint64_t events); /** * @brief Hangup connections to failed servers * * Injects hangup events for DCB that are connected to servers that are down. * * @param monitor Monitor object */ void mon_hangup_failed_servers(MXS_MONITOR *monitor); MXS_END_DECLS