OpenSolaris_b135/lib/libsldap/common/ns_connmgmt.h
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2008 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _NS_CONNMGMT_H
#define _NS_CONNMGMT_H
#pragma ident "%Z%%M% %I% %E% SMI"
#ifdef __cplusplus
extern "C" {
#endif
#include <thread.h>
#include "ns_sldap.h"
#include "ns_internal.h"
#include "ns_cache_door.h"
struct ns_conn_user; /* connection user, forward definition */
struct ns_conn_mt; /* multi-threaded (MT) connection, forward definition */
struct ns_conn_mgmt; /* connection management, forward definition */
#define NS_CONN_MT_USER_NO_MAX -1
#define NS_CONN_MT_USER_MAX NS_CONN_MT_USER_NO_MAX
#define NS_LIST_TRY_MAX 3
/*
* Structure for handling the waiter of a pending multi-threaded (MT) connection
*/
typedef struct ns_conn_waiter {
cond_t waitcv;
uint8_t signaled;
struct ns_conn_user *key;
struct ns_conn_waiter *next, *prev;
} ns_conn_waiter_t;
/*
* type of a connection user
*/
typedef enum {
NS_CONN_USER_SEARCH = 1,
NS_CONN_USER_WRITE = 2,
NS_CONN_USER_AUTH = 3,
NS_CONN_USER_GETENT = 4
} ns_conn_user_type_t;
/*
* state of a connection user
*/
typedef enum {
NS_CONN_USER_UNINITED = 0,
NS_CONN_USER_ALLOCATED = 1,
NS_CONN_USER_FINDING = 2, /* looking for an MT connection */
NS_CONN_USER_WAITING = 3, /* waiting for an MT connection */
NS_CONN_USER_WOKEUP = 4,
NS_CONN_USER_CONNECT_ERROR = 5,
NS_CONN_USER_CONNECTED = 6,
NS_CONN_USER_DISCONNECTED = 7,
NS_CONN_USER_FREED = 8
} ns_conn_user_state_t;
/*
* A connection user represents a request processed by libsldap. It
* usually is a thread using the same connection from start to end.
* Different connection users of the same type can share the same
* connection opened for that type. But search and getent users can
* share the same connection opened for either search or getent. AUTH
* connection are not shareable.
*
* A getent user may have a longer lifespan and live outside of libsldap.
* This is because the associated search cookie is passed back to the caller
* via the firstEntry call and used in the subsequent nextEntry or endEntry
* calls. Even though the firstEntry and the nextEntry/endEntry calls may
* be running in a different thread, the connection being used will be the
* same. It is the one assigend during the firstEntry call.
*/
struct ns_conn_user {
ns_conn_user_type_t type; /* search, write, auth, getent, ... */
ns_conn_user_state_t state;
thread_t tid; /* id of the thread starts the request */
struct ns_conn_user *next; /* next conn_user in the linked list */
struct ns_conn_mt *conn_mt; /* the MT connection being used */
struct ns_conn_mgmt *conn_mgmt; /* ref counted conn management */
void *userinfo; /* private data of the request */
ns_ldap_return_code ns_rc; /* error return code */
ns_ldap_error_t *ns_error; /* error info */
boolean_t referral; /* using a referred server ? */
boolean_t retry; /* retry the request on certain error? */
boolean_t keep_conn; /* keep the conn for reuse ? */
boolean_t use_mt_conn; /* using/used an MT connection ? */
boolean_t bad_mt_conn; /* MT connection is not usable ? */
};
/*
* state of an MT connection
*/
typedef enum {
NS_CONN_MT_UNINITED = 0,
NS_CONN_MT_CONNECTING = 1,
NS_CONN_MT_CONNECT_ERROR = 2,
NS_CONN_MT_CONNECTED = 3,
NS_CONN_MT_CLOSING = 4
} ns_conn_mt_state_t;
/*
* An ns_conn_mt (or MT connection) represents an ldap connection
* that can be shared among multiple threads. It also represents
* the set of connection users using the ldap connection. It contains
* a pointer to the Connection structure that has the physical info
* of the connection (server name, address, ldap handle, etc). It
* also contains a linked list of all the conn_user using the ldap
* connection. The connection users can wait on an MT connection
* to become available or be told to abort and clean up when one of
* the connection user detects an error and knows that the connection
* is no longer usable. The error info is then saved in the structure
* for other users to consume.
*
* An MT connection is meant to be shared concurrently and persistent.
* Even when there's no current user, it will be kept by the connection
* management, waiting for the next user. It will be closed when
* a connection error is detected, when a better server should be
* used, when the Native LDAP configuration change, or when the libsldap
* is being unloaded.
*/
typedef struct ns_conn_mt {
mutex_t lock;
ns_conn_mt_state_t state;
pid_t pid; /* process creates the connection */
thread_t tid; /* thread creates the connection */
struct ns_conn_mt *next; /* next conn_mt in the linked list */
ns_conn_user_t *cu_head; /* head of conn_user linked list */
ns_conn_user_t *cu_tail; /* tail of conn_user linked list */
struct ns_conn_mgmt *conn_mgmt; /* ref counted conn management */
ns_conn_waiter_t waiter; /* first of the connection waiters */
uint_t cu_cnt; /* number of the using conn_user */
int32_t cu_max; /* max. allowed number of conn_user */
uint_t waiter_cnt; /* number of waiters */
ns_conn_user_type_t opened_for; /* type of conn_user opened for */
Connection *conn; /* name, IP address, ldap handle, etc */
time_t create_time; /* time when connection created */
time_t access_time; /* time when last used */
ns_ldap_return_code ns_rc; /* saved error code */
ns_ldap_error_t *ns_error; /* saved error info */
boolean_t close_when_nouser; /* close connection when */
/* last user is done ? */
boolean_t detached; /* no longer in connection pool? */
boolean_t referral; /* using a referred server ? */
} ns_conn_mt_t;
/*
* state of a connection management
* (a connection pool sharing the same native LDAP configuration)
*/
typedef enum {
NS_CONN_MGMT_UNINITED = 0,
NS_CONN_MGMT_INACTIVE = 1, /* conn sharing not yet requested */
NS_CONN_MGMT_ACTIVE = 2, /* connection sharing required/requested */
NS_CONN_MGMT_DETACHED = 3 /* on the way down, no new user allowed */
} ns_conn_mgmt_state_t;
/*
* An ns_conn_mgmt (or connection management) represents the set of MT
* connections using the same native LDAP configuration. It is a connection
* pool that can adjust the MT connection status and usage based on the
* change notifications it receives from the ldap_cachemgr daemon, OR When
* the change is detected at config refresh time. When a server status
* change (up or down) notification is received or detected, it will
* close the MT connections using the server. Or mark them as to-be-closed
* and close them when all users are done using them. When a config change
* notice is received, it will detach itself and allow a new ns_conn_mgmt be
* created for the new configuration. The old config would still be used
* by the detached ns_conn_mgmt. Both will be destroyed when all existing
* conn_user are done. Any conn_user and MT connection created after the
* configuration switch will use the new configuration.
*
* Note that there's always just one current ns_conn_mgmt. Its usage is
* reference counted. Any new conn_user or MT connection referencing
* the ns_conn_mgmt adds 1 to the count, any release of the ns_conn_mgmt
* decrement the count by 1. The ns_conn_mgmt can not be freed until
* the reference count becomes zero.
*
* Each ns_conn_mgmt references a native LDAP configuration. The config
* component of this library always maintains a global configuration. It is
* referred to as the current global config. The current ns_conn_mgmt
* uses that global config. When an ns_conn_mgmt is detached, or not
* longer active/current, the config it uses is no longer the current global
* one, which is referred as the per connection management config. When
* the ns_conn_mgmt is freed, the config will also be destroyed.
*/
typedef struct ns_conn_mgmt {
mutex_t lock;
ns_conn_mgmt_state_t state;
pid_t pid; /* process creates the conn_mgmt */
thread_t procchg_tid; /* id of the change monitor thread */
ns_conn_mt_t *cm_head; /* head of the conn_mt linked list */
ns_conn_mt_t *cm_tail; /* tail of the conn_mt linked list */
mutex_t cfg_lock; /* lock serializes access to config */
ldap_get_chg_cookie_t cfg_cookie; /* used to detect if config changes */
ns_config_t *config; /* the native LDAP config being used */
char **pservers; /* preferred servers defined in config */
uint_t cm_cnt; /* number of MT connection in the pool */
uint_t ref_cnt; /* number of reference by conn_MT/conn_user */
boolean_t is_nscd; /* running in a nscd ? */
boolean_t is_peruser_nscd; /* running in a per-user nscd ? */
boolean_t ldap_mt; /* libldap supports multi-threaded client ? */
boolean_t do_mt_conn; /* need and able to do MT conn ? */
boolean_t shutting_down; /* on the way down ? */
boolean_t cfg_reloaded; /* config is not current ? */
boolean_t procchg_started; /* change monitor thread started ? */
boolean_t procchg_door_call; /* in door call and waiting ? */
boolean_t pservers_loaded; /* pservers array is set ? */
} ns_conn_mgmt_t;
/*
* For a connection management and the conn_mt connections it manages, it is
* very helpful to know exactly when the Native LDAP configuration changes
* and when the status of the configured servers change. If the config
* changes, new connection management will be created. If servers go up
* or down, conn_mt connections being used need to be dropped or switched.
* For processes other than the main nscd, the changes has to be detected
* in a less efficient way by libsldap. For the main nscd (not including
* peruser nscd), the connection management which has active conn_mt
* connections can rely on the ldap_cachemgr daemon to report if there's any
* change in servers' status or if the native LDAP configuration has changed.
*
* The mechanism for reporting of the changes is a door call sent from
* libsldap to ldap_cachemgr. The call will not be returned until changes
* detected by ldap_cachemgr. When the change info is passed back to
* libsldap, the change monitor thread will wake up from the door call
* and process the notification. For servers went from up to down, the
* associated MT connections will be closed, and then all conn_users'
* state will be marked as closing. When a conn_user notices it, the
* operations represented by that conn_user will be ended with error
* info. When a more preferred server is up, MT connections using
* less preferred servers will be marked as closed-when-all-user-done,
* so that new connection will be opened and using the preferred server.
* A configuration change causes the current connection management and
* the configuration it uses to become detached but continually being
* used by the old MT connections. Any new MT connection opened will
* be put in a new connection management and uses the new configuration
* immediately.
*/
typedef enum {
NS_SERVER_UP = 1,
NS_SERVER_DOWN = 2
} ns_server_status_t;
typedef struct ns_server_status_change {
int num_server;
boolean_t config_changed;
ns_server_status_t *changes; /* array of status change */
char **servers; /* array of server */
} ns_server_status_change_t;
/*
* connection management functions
*/
ns_conn_mgmt_t *__s_api_conn_mgmt_init();
int __s_api_setup_mt_ld(LDAP *ld);
int __s_api_check_mtckey();
void __s_api_use_prev_conn_mgmt(int, ns_config_t *);
ns_conn_user_t *__s_api_conn_user_init(int, void *, boolean_t);
void __s_api_conn_mt_return(ns_conn_user_t *);
void __s_api_conn_user_free(ns_conn_user_t *);
int __s_api_conn_mt_add(Connection *con, ns_conn_user_t *, ns_ldap_error_t **);
int __s_api_conn_mt_get(const char *, const int, const ns_cred_t *,
Connection **, ns_ldap_error_t **, ns_conn_user_t *);
void __s_api_conn_mt_remove(ns_conn_user_t *, int, ns_ldap_error_t **);
int __s_api_check_libldap_MT_conn_support(ns_conn_user_t *, LDAP *ld,
ns_ldap_error_t **);
void __s_api_conn_mt_close(ns_conn_user_t *, int, ns_ldap_error_t **);
void __s_api_reinit_conn_mgmt_new_config(ns_config_t *);
int __s_api_setup_retry_search(ns_conn_user_t **, ns_conn_user_type_t, int *,
int *, ns_ldap_error_t **);
int __s_api_setup_getnext(ns_conn_user_t *, int *, ns_ldap_error_t **);
void __s_api_shutdown_conn_mgmt();
#ifdef __cplusplus
}
#endif
#endif /* _NS_CONNMGMT_H */