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MaxScale/include/maxscale/server.h
Markus Makela 5aa791d16e Move persistent connections to thread specific lists 
Making the lists of persistent DCBs thread specific is both a bug fix and
a performance enhancement. There was a small window where a non-owner
thread could receive events for a DCB. By partitioning the DCBs into
thread specific lists, this is avoided by removing the possibility of DCBs
moving between threads.
2016-11-30 10:28:23 +02:00

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C
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#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/bsl.
*
* 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 service.h
*
* The server level definitions within the gateway
*
* @verbatim
* Revision History
*
* Date Who Description
* 14/06/13 Mark Riddoch Initial implementation
* 21/06/13 Mark Riddoch Addition of server status flags
* 22/07/13 Mark Riddoch Addition of JOINED status for Galera
* 18/05/14 Mark Riddoch Addition of unique_name field
* 20/05/14 Massimiliano Pinto Addition of server_string field
* 20/05/14 Massimiliano Pinto Addition of node_id field
* 23/05/14 Massimiliano Pinto Addition of rlag and node_ts fields
* 03/06/14 Mark Riddoch Addition of maintainance mode
* 20/06/14 Massimiliano Pinto Addition of master_id, depth, slaves fields
* 26/06/14 Mark Riddoch Adidtion of server parameters
* 30/07/14 Massimiliano Pinto Addition of NDB status for MySQL Cluster
* 30/08/14 Massimiliano Pinto Addition of SERVER_STALE_STATUS
* 27/10/14 Massimiliano Pinto Addition of SERVER_MASTER_STICKINESS
* 19/02/15 Mark Riddoch Addition of serverGetList
* 01/06/15 Massimiliano Pinto Addition of server_update_address/port
* 19/06/15 Martin Brampton Extra fields for persistent connections, CHK_SERVER
*
* @endverbatim
*/
#include <maxscale/cdefs.h>
#include <maxscale/dcb.h>
#include <maxscale/resultset.h>
MXS_BEGIN_DECLS
#define MAX_SERVER_NAME_LEN 1024
#define MAX_SERVER_MONUSER_LEN 512
#define MAX_SERVER_MONPW_LEN 512
#define MAX_NUM_SLAVES 128 /**< Maximum number of slaves under a single server*/
/**
* The server parameters used for weighting routing decissions
*
*/
typedef struct server_params
{
char *name; /**< Parameter name */
char *value; /**< Parameter value */
struct server_params *next; /**< Next Paramter in the linked list */
} SERVER_PARAM;
/**
* The server statistics structure
*
*/
typedef struct
{
int n_connections; /**< Number of connections */
int n_current; /**< Current connections */
int n_current_ops; /**< Current active operations */
int n_persistent; /**< Current persistent pool */
} SERVER_STATS;
/**
* The SERVER structure defines a backend server. Each server has a name
* or IP address for the server, a port that the server listens on and
* the name of a protocol module that is loaded to implement the protocol
* between the gateway and the server.
*/
typedef struct server
{
#if defined(SS_DEBUG)
skygw_chk_t server_chk_top;
#endif
SPINLOCK lock; /**< Common access lock */
char *unique_name; /**< Unique name for the server */
char name[MAX_SERVER_NAME_LEN]; /**< Server name/IP address*/
unsigned short port; /**< Port to listen on */
char *protocol; /**< Protocol module to use */
char *authenticator; /**< Authenticator module name */
void *auth_instance; /**< Authenticator instance */
char *auth_options; /**< Authenticator options */
SSL_LISTENER *server_ssl; /**< SSL data structure for server, if any */
unsigned int status; /**< Status flag bitmap for the server */
char monuser[MAX_SERVER_MONUSER_LEN]; /**< User name to use to monitor the db */
char monpw[MAX_SERVER_MONPW_LEN]; /**< Password to use to monitor the db */
SERVER_STATS stats; /**< The server statistics */
struct server *next; /**< Next server */
struct server *nextdb; /**< Next server in list attached to a service */
char *server_string; /**< Server version string, i.e. MySQL server version */
long node_id; /**< Node id, server_id for M/S or local_index for Galera */
int rlag; /**< Replication Lag for Master / Slave replication */
unsigned long node_ts; /**< Last timestamp set from M/S monitor module */
SERVER_PARAM *parameters; /**< Parameters of a server that may be used to weight routing decisions */
long master_id; /**< Master server id of this node */
int depth; /**< Replication level in the tree */
long slaves[MAX_NUM_SLAVES]; /**< Slaves of this node */
bool master_err_is_logged; /*< If node failed, this indicates whether it is logged */
DCB **persistent; /**< List of unused persistent connections to the server */
long persistpoolmax; /**< Maximum size of persistent connections pool */
long persistmaxtime; /**< Maximum number of seconds connection can live */
int persistmax; /**< Maximum pool size actually achieved since startup */
uint8_t charset; /**< Default server character set */
bool is_active; /**< Server is active and has not been "destroyed" */
#if defined(SS_DEBUG)
skygw_chk_t server_chk_tail;
#endif
} SERVER;
/**
* Status bits in the server->status member.
*
* These are a bitmap of attributes that may be applied to a server
*/
#define SERVER_RUNNING 0x0001 /**<< The server is up and running */
#define SERVER_MASTER 0x0002 /**<< The server is a master, i.e. can handle writes */
#define SERVER_SLAVE 0x0004 /**<< The server is a slave, i.e. can handle reads */
#define SERVER_JOINED 0x0008 /**<< The server is joined in a Galera cluster */
#define SERVER_NDB 0x0010 /**<< The server is part of a MySQL cluster setup */
#define SERVER_MAINT 0x0020 /**<< Server is in maintenance mode */
#define SERVER_SLAVE_OF_EXTERNAL_MASTER 0x0040 /**<< Server is slave of a Master outside
the provided replication topology */
#define SERVER_STALE_STATUS 0x0080 /**<< Server stale status, monitor didn't update it */
#define SERVER_MASTER_STICKINESS 0x0100 /**<< Server Master stickiness */
#define SERVER_AUTH_ERROR 0x1000 /**<< Authentication error from monitor */
#define SERVER_STALE_SLAVE 0x2000 /**<< Slave status is possible even without a master */
#define SERVER_RELAY_MASTER 0x4000 /**<< Server is a relay master */
/**
* Is the server valid and active
*/
#define SERVER_IS_ACTIVE(server) (server->is_active)
/**
* Is the server running - the macro returns true if the server is marked as running
* regardless of it's state as a master or slave
*/
#define SERVER_IS_RUNNING(server) (((server)->status & (SERVER_RUNNING|SERVER_MAINT)) == SERVER_RUNNING)
/**
* Is the server marked as down - the macro returns true if the server is believed
* to be inoperable.
*/
#define SERVER_IS_DOWN(server) (((server)->status & SERVER_RUNNING) == 0)
/**
* Is the server a master? The server must be both running and marked as master
* in order for the macro to return true
*/
#define SERVER_IS_MASTER(server) SRV_MASTER_STATUS((server)->status)
#define SRV_MASTER_STATUS(status) ((status & \
(SERVER_RUNNING|SERVER_MASTER|SERVER_MAINT)) == \
(SERVER_RUNNING|SERVER_MASTER))
/**
* Is the server valid candidate for root master. The server must be running,
* marked as master and not have maintenance bit set.
*/
#define SERVER_IS_ROOT_MASTER(server) \
(((server)->status & (SERVER_RUNNING|SERVER_MASTER|SERVER_MAINT)) == (SERVER_RUNNING|SERVER_MASTER))
/**
* Is the server a slave? The server must be both running and marked as a slave
* in order for the macro to return true
*/
#define SERVER_IS_SLAVE(server) \
(((server)->status & (SERVER_RUNNING|SERVER_SLAVE|SERVER_MAINT)) == \
(SERVER_RUNNING|SERVER_SLAVE))
/**
* Is the server joined Galera node? The server must be running and joined.
*/
#define SERVER_IS_JOINED(server) \
(((server)->status & (SERVER_RUNNING|SERVER_JOINED|SERVER_MAINT)) == (SERVER_RUNNING|SERVER_JOINED))
/**
* Is the server a SQL node in MySQL Cluster? The server must be running and with NDB status
*/
#define SERVER_IS_NDB(server) \
(((server)->status & (SERVER_RUNNING|SERVER_NDB|SERVER_MAINT)) == (SERVER_RUNNING|SERVER_NDB))
/**
* Is the server in maintenance mode.
*/
#define SERVER_IN_MAINT(server) ((server)->status & SERVER_MAINT)
/** server is not master, slave or joined */
#define SERVER_NOT_IN_CLUSTER(s) (((s)->status & (SERVER_MASTER|SERVER_SLAVE|SERVER_JOINED|SERVER_NDB)) == 0)
#define SERVER_IS_IN_CLUSTER(s) (((s)->status & (SERVER_MASTER|SERVER_SLAVE|SERVER_JOINED|SERVER_NDB)) != 0)
#define SERVER_IS_RELAY_SERVER(server) \
(((server)->status & (SERVER_RUNNING|SERVER_MASTER|SERVER_SLAVE|SERVER_MAINT)) == \
(SERVER_RUNNING|SERVER_MASTER|SERVER_SLAVE))
/**
* @brief Allocate a new server
*
* This will create a new server that represents a backend server that services
* can use. This function will add the server to the running configuration but
* will not persist the changes.
*
* @param name Unique server name
* @param address The server address
* @param port The port to connect to
* @param protocol The protocol to use to connect to the server
* @param authenticator The server authenticator module
* @param auth_options Options for the authenticator module
* @return The newly created server or NULL if an error occurred
*/
extern SERVER* server_alloc(const char *name, const char *address, unsigned short port,
const char *protocol, const char *authenticator,
const char *auth_options);
/**
* @brief Find a server that can be reused
*
* A server that has been destroyed will not be deleted but only deactivated.
*
* @param name Name of the server
* @param protocol Protocol used by the server
* @param authenticator The authenticator module of the server
* @param auth_options Options for the authenticator
* @return Reusable SERVER or NULL if no servers matching the criteria were
* found
* @see runtime_create_server
*/
SERVER* server_find_destroyed(const char *name, const char *protocol,
const char *authenticator, const char *auth_options);
/**
* @brief Serialize a server to a file
*
* This converts @c server into an INI format file. This allows created servers
* to be persisted to disk. This will replace any existing files with the same
* name.
*
* @param server Server to serialize
* @return False if the serialization of the server fails, true if it was successful
*/
bool server_serialize(const SERVER *server);
extern int server_free(SERVER *);
extern SERVER *server_find_by_unique_name(const char *name);
extern SERVER *server_find(char *, unsigned short);
extern void printServer(SERVER *);
extern void printAllServers();
extern void dprintAllServers(DCB *);
extern void dprintAllServersJson(DCB *);
extern void dprintServer(DCB *, SERVER *);
extern void dprintPersistentDCBs(DCB *, SERVER *);
extern void dListServers(DCB *);
extern char *server_status(SERVER *);
extern void server_clear_set_status(SERVER *server, int specified_bits, int bits_to_set);
extern void server_set_status(SERVER *, int);
extern void server_clear_status(SERVER *, int);
extern void server_transfer_status(SERVER *dest_server, SERVER *source_server);
extern void serverAddMonUser(SERVER *, char *, char *);
extern void serverAddParameter(SERVER *, char *, char *);
extern char *serverGetParameter(SERVER *, char *);
extern void server_update_credentials(SERVER *, char *, char *);
extern DCB *server_get_persistent(SERVER *, char *, const char *, int);
extern void server_update_address(SERVER *, char *);
extern void server_update_port(SERVER *, unsigned short);
extern RESULTSET *serverGetList();
extern unsigned int server_map_status(char *str);
extern bool server_set_version_string(SERVER* server, const char* string);
MXS_END_DECLS
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