/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2001,2008 Oracle. All rights reserved. * * $Id: rep_method.c,v 12.122 2008/04/28 18:18:36 sue Exp $ */ #include "db_config.h" #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/btree.h" #include "dbinc/log.h" #include "dbinc/mp.h" #include "dbinc/txn.h" static int __rep_abort_prepared __P((ENV *)); static int __rep_bt_cmp __P((DB *, const DBT *, const DBT *)); static void __rep_config_map __P((ENV *, u_int32_t *, u_int32_t *)); static u_int32_t __rep_conv_vers __P((ENV *, u_int32_t)); static int __rep_restore_prepared __P((ENV *)); /* * __rep_env_create -- * Replication-specific initialization of the ENV structure. * * PUBLIC: int __rep_env_create __P((DB_ENV *)); */ int __rep_env_create(dbenv) DB_ENV *dbenv; { DB_REP *db_rep; ENV *env; int ret; env = dbenv->env; if ((ret = __os_calloc(env, 1, sizeof(DB_REP), &db_rep)) != 0) return (ret); db_rep->eid = DB_EID_INVALID; db_rep->bytes = REP_DEFAULT_THROTTLE; DB_TIMEOUT_TO_TIMESPEC(DB_REP_REQUEST_GAP, &db_rep->request_gap); DB_TIMEOUT_TO_TIMESPEC(DB_REP_MAX_GAP, &db_rep->max_gap); db_rep->elect_timeout = 2 * US_PER_SEC; /* 2 seconds */ db_rep->chkpt_delay = 30 * US_PER_SEC; /* 30 seconds */ db_rep->my_priority = DB_REP_DEFAULT_PRIORITY; /* * Make no clock skew the default. Setting both fields * to the same non-zero value means no skew. */ db_rep->clock_skew = 1; db_rep->clock_base = 1; #ifdef HAVE_REPLICATION_THREADS if ((ret = __repmgr_env_create(env, db_rep)) != 0) { __os_free(env, db_rep); return (ret); } #endif env->rep_handle = db_rep; return (0); } /* * __rep_env_destroy -- * Replication-specific destruction of the ENV structure. * * PUBLIC: void __rep_env_destroy __P((DB_ENV *)); */ void __rep_env_destroy(dbenv) DB_ENV *dbenv; { ENV *env; env = dbenv->env; if (env->rep_handle != NULL) { #ifdef HAVE_REPLICATION_THREADS __repmgr_env_destroy(env, env->rep_handle); #endif __os_free(env, env->rep_handle); env->rep_handle = NULL; } } /* * __rep_get_config -- * Return the replication subsystem configuration. * * PUBLIC: int __rep_get_config __P((DB_ENV *, u_int32_t, int *)); */ int __rep_get_config(dbenv, which, onp) DB_ENV *dbenv; u_int32_t which; int *onp; { DB_REP *db_rep; ENV *env; REP *rep; u_int32_t mapped; env = dbenv->env; #undef OK_FLAGS #define OK_FLAGS \ (DB_REP_CONF_BULK | DB_REP_CONF_DELAYCLIENT | \ DB_REP_CONF_NOAUTOINIT | DB_REP_CONF_NOWAIT) if (FLD_ISSET(which, ~OK_FLAGS)) return (__db_ferr(env, "DB_ENV->rep_get_config", 0)); db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_get_config", DB_INIT_REP); mapped = 0; __rep_config_map(env, &which, &mapped); if (REP_ON(env)) { rep = db_rep->region; if (FLD_ISSET(rep->config, mapped)) *onp = 1; else *onp = 0; } else { if (FLD_ISSET(db_rep->config, mapped)) *onp = 1; else *onp = 0; } return (0); } /* * __rep_set_config -- * Configure the replication subsystem. * * PUBLIC: int __rep_set_config __P((DB_ENV *, u_int32_t, int)); */ int __rep_set_config(dbenv, which, on) DB_ENV *dbenv; u_int32_t which; int on; { DB_LOG *dblp; DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; LOG *lp; REP *rep; REP_BULK bulk; u_int32_t mapped, orig; int ret; env = dbenv->env; db_rep = env->rep_handle; ret = 0; #undef OK_FLAGS #define OK_FLAGS \ (DB_REP_CONF_BULK | DB_REP_CONF_DELAYCLIENT | DB_REP_CONF_LEASE | \ DB_REP_CONF_NOAUTOINIT | DB_REP_CONF_NOWAIT | DB_REPMGR_CONF_2SITE_STRICT) ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_set_config", DB_INIT_REP); if (FLD_ISSET(which, ~OK_FLAGS)) return (__db_ferr(env, "DB_ENV->rep_set_config", 0)); mapped = 0; __rep_config_map(env, &which, &mapped); if (REP_ON(env)) { ENV_ENTER(env, ip); rep = db_rep->region; /* * Leases must be turned on before calling rep_start. * Leases can never be turned off once they're turned on. */ if (FLD_ISSET(mapped, REP_C_LEASE)) { if (F_ISSET(rep, REP_F_START_CALLED)) { __db_errx(env, "DB_ENV->rep_set_config: leases must be configured before DB_ENV->rep_start"); ret = EINVAL; } if (on == 0) { __db_errx(env, "DB_ENV->rep_set_config: leases cannot be turned off"); ret = EINVAL; } if (ret != 0) return (ret); } MUTEX_LOCK(env, rep->mtx_clientdb); REP_SYSTEM_LOCK(env); orig = rep->config; if (on) FLD_SET(rep->config, mapped); else FLD_CLR(rep->config, mapped); /* * Bulk transfer requires special processing if it is getting * toggled. */ dblp = env->lg_handle; lp = dblp->reginfo.primary; if (FLD_ISSET(rep->config, REP_C_BULK) && !FLD_ISSET(orig, REP_C_BULK)) db_rep->bulk = R_ADDR(&dblp->reginfo, lp->bulk_buf); REP_SYSTEM_UNLOCK(env); /* * If turning bulk off and it was on, send out whatever is in * the buffer already. */ if (FLD_ISSET(orig, REP_C_BULK) && !FLD_ISSET(rep->config, REP_C_BULK) && lp->bulk_off != 0) { memset(&bulk, 0, sizeof(bulk)); if (db_rep->bulk == NULL) bulk.addr = R_ADDR(&dblp->reginfo, lp->bulk_buf); else bulk.addr = db_rep->bulk; bulk.offp = &lp->bulk_off; bulk.len = lp->bulk_len; bulk.type = REP_BULK_LOG; bulk.eid = DB_EID_BROADCAST; bulk.flagsp = &lp->bulk_flags; ret = __rep_send_bulk(env, &bulk, 0); } MUTEX_UNLOCK(env, rep->mtx_clientdb); ENV_LEAVE(env, ip); } else { if (on) FLD_SET(db_rep->config, mapped); else FLD_CLR(db_rep->config, mapped); } return (ret); } static void __rep_config_map(env, inflagsp, outflagsp) ENV *env; u_int32_t *inflagsp, *outflagsp; { COMPQUIET(env, NULL); if (FLD_ISSET(*inflagsp, DB_REP_CONF_BULK)) { FLD_SET(*outflagsp, REP_C_BULK); FLD_CLR(*inflagsp, DB_REP_CONF_BULK); } if (FLD_ISSET(*inflagsp, DB_REP_CONF_DELAYCLIENT)) { FLD_SET(*outflagsp, REP_C_DELAYCLIENT); FLD_CLR(*inflagsp, DB_REP_CONF_DELAYCLIENT); } if (FLD_ISSET(*inflagsp, DB_REP_CONF_LEASE)) { FLD_SET(*outflagsp, REP_C_LEASE); FLD_CLR(*inflagsp, DB_REP_CONF_LEASE); } if (FLD_ISSET(*inflagsp, DB_REP_CONF_NOAUTOINIT)) { FLD_SET(*outflagsp, REP_C_NOAUTOINIT); FLD_CLR(*inflagsp, DB_REP_CONF_NOAUTOINIT); } if (FLD_ISSET(*inflagsp, DB_REP_CONF_NOWAIT)) { FLD_SET(*outflagsp, REP_C_NOWAIT); FLD_CLR(*inflagsp, DB_REP_CONF_NOWAIT); } if (FLD_ISSET(*inflagsp, DB_REPMGR_CONF_2SITE_STRICT)) { FLD_SET(*outflagsp, REP_C_2SITE_STRICT); FLD_CLR(*inflagsp, DB_REPMGR_CONF_2SITE_STRICT); } } /* * __rep_start -- * Become a master or client, and start sending messages to participate * in the replication environment. Must be called after the environment * is open. * * We must protect rep_start, which may change the world, with the rest * of the DB library. Each API interface will count itself as it enters * the library. Rep_start checks the following: * * rep->msg_th - this is the count of threads currently in rep_process_message * rep->handle_cnt - number of threads actively using a dbp in library. * rep->txn_cnt - number of active txns. * REP_F_READY_* - Replication flag that indicates that we wish to run * recovery, and want to prohibit new transactions from entering and cause * existing ones to return immediately (with a DB_LOCK_DEADLOCK error). * * There is also the renv->rep_timestamp which is updated whenever significant * events (i.e., new masters, log rollback, etc). Upon creation, a handle * is associated with the current timestamp. Each time a handle enters the * library it must check if the handle timestamp is the same as the one * stored in the replication region. This prevents the use of handles on * clients that reference non-existent files whose creation was backed out * during a synchronizing recovery. * * PUBLIC: int __rep_start __P((DB_ENV *, DBT *, u_int32_t)); */ int __rep_start(dbenv, dbt, flags) DB_ENV *dbenv; DBT *dbt; u_int32_t flags; { DB *dbp; DB_LOG *dblp; DB_LSN lsn; DB_REP *db_rep; DB_THREAD_INFO *ip; DB_TXNREGION *region; ENV *env; LOG *lp; REGINFO *infop; REP *rep; db_timeout_t tmp; u_int32_t oldvers, pending_event, repflags, role; int announce, locked, ret, role_chg; int t_ret; env = dbenv->env; ENV_REQUIRES_CONFIG_XX( env, rep_handle, "DB_ENV->rep_start", DB_INIT_REP); db_rep = env->rep_handle; rep = db_rep->region; infop = env->reginfo; locked = 0; pending_event = DB_EVENT_NO_SUCH_EVENT; switch (role = LF_ISSET(DB_REP_CLIENT | DB_REP_MASTER)) { case DB_REP_CLIENT: case DB_REP_MASTER: break; default: __db_errx(env, "DB_ENV->rep_start: must specify DB_REP_CLIENT or DB_REP_MASTER"); return (EINVAL); } /* We need a transport function. */ if (db_rep->send == NULL) { __db_errx(env, "DB_ENV->rep_set_transport must be called before DB_ENV->rep_start"); return (EINVAL); } /* * If we're using master leases, check that all needed * setup has been done. */ if (IS_USING_LEASES(env) && rep->lease_timeout == 0) { __db_errx(env, "DB_ENV->rep_start: must call DB_ENV->rep_set_timeout for leases first"); return (EINVAL); } ENV_ENTER(env, ip); /* * In order to correctly check log files for old versions, we * need to flush the logs. */ if ((ret = __log_flush(env, NULL)) != 0) goto out; REP_SYSTEM_LOCK(env); /* * We only need one thread to start-up replication, so if * there is another thread in rep_start, we'll let it finish * its work and have this thread simply return. Similarly, * if a thread is in a critical lockout section we return. */ if (F_ISSET(rep, REP_F_READY_MSG)) { /* * There is already someone in lockout. Return. */ RPRINT(env, DB_VERB_REP_MISC, (env, "Thread already in lockout")); REP_SYSTEM_UNLOCK(env); goto out; } else if ((ret = __rep_lockout_msg(env, rep, 0)) != 0) goto errunlock; role_chg = (!F_ISSET(rep, REP_F_MASTER) && role == DB_REP_MASTER) || (!F_ISSET(rep, REP_F_CLIENT) && role == DB_REP_CLIENT); /* * Wait for any active txns or mpool ops to complete, and * prevent any new ones from occurring, only if we're * changing roles. */ if (role_chg) { if ((ret = __rep_lockout_api(env, rep)) != 0) goto errunlock; locked = 1; } dblp = env->lg_handle; lp = dblp->reginfo.primary; if (role == DB_REP_MASTER) { if (role_chg) { /* * If we're upgrading from having been a client, * preclose, so that we close our temporary database * and any files we opened while doing a rep_apply. * If we don't we can infinitely leak file ids if * the master crashed with files open (the likely * case). If we don't close them we can run into * problems if we try to remove that file or long * running applications end up with an unbounded * number of used fileids, each getting written * on checkpoint. Just close them. * Then invalidate all files open in the logging * region. These are files open by other processes * attached to the environment. They must be * closed by the other processes when they notice * the change in role. */ if ((ret = __rep_preclose(env)) != 0) goto errunlock; rep->gen++; /* * There could have been any number of failed * elections, so jump the gen if we need to now. */ if (rep->egen > rep->gen) rep->gen = rep->egen; if (IS_USING_LEASES(env) && !F_ISSET(rep, REP_F_MASTERELECT)) { __db_errx(env, "rep_start: Cannot become master without being elected when using leases."); ret = EINVAL; goto errunlock; } if (F_ISSET(rep, REP_F_MASTERELECT)) { __rep_elect_done(env, rep, 0); F_CLR(rep, REP_F_MASTERELECT); } if (rep->egen <= rep->gen) rep->egen = rep->gen + 1; RPRINT(env, DB_VERB_REP_MISC, (env, "New master gen %lu, egen %lu", (u_long)rep->gen, (u_long)rep->egen)); if ((ret = __rep_write_gen(env, rep->gen)) != 0) goto errunlock; } /* * Set lease duration assuming clients have faster clock. * Master needs to compensate so that clients do not * expire their grant while the master thinks it is valid. */ if (IS_USING_LEASES(env) && (role_chg || !F_ISSET(rep, REP_F_START_CALLED))) { /* * If we have already granted our lease, we * cannot become master. */ if ((ret = __rep_islease_granted(env))) { __db_errx(env, "rep_start: Cannot become master with outstanding lease granted."); ret = EINVAL; goto errunlock; } /* * Simply compute the larger ratio for the lease. */ tmp = (db_timeout_t)((double)rep->lease_timeout / ((double)rep->clock_skew / (double)rep->clock_base)); DB_TIMEOUT_TO_TIMESPEC(tmp, &rep->lease_duration); /* * Keep track of last perm LSN on master for * lease refresh. */ INIT_LSN(lp->max_perm_lsn); if ((ret = __rep_lease_table_alloc(env, rep->nsites)) != 0) goto errunlock; } rep->master_id = rep->eid; /* * Clear out almost everything, and then set MASTER. Leave * READY_* alone in case we did a lockout above; * we'll clear it in a moment (below), once we've written * the txn_recycle into the log. */ repflags = F_ISSET(rep, REP_F_READY_API | REP_F_READY_MSG | REP_F_READY_OP); #ifdef DIAGNOSTIC if (!F_ISSET(rep, REP_F_GROUP_ESTD)) RPRINT(env, DB_VERB_REP_MISC, (env, "Establishing group as master.")); #endif FLD_SET(repflags, REP_F_MASTER | REP_F_GROUP_ESTD); rep->flags = repflags; /* * We're master. Set the versions to the current ones. */ oldvers = lp->persist.version; /* * If we're moving forward to the current version, we need * to force the log file to advance and reset the * recovery table since it contains pointers to old * recovery functions. */ RPRINT(env, DB_VERB_REP_MISC, (env, "rep_start: Old log version was %lu", (u_long)oldvers)); if (lp->persist.version != DB_LOGVERSION) { if ((ret = __env_init_rec(env, DB_LOGVERSION)) != 0) goto errunlock; } rep->version = DB_REPVERSION; F_CLR(rep, REP_F_READY_MSG); REP_SYSTEM_UNLOCK(env); LOG_SYSTEM_LOCK(env); lsn = lp->lsn; LOG_SYSTEM_UNLOCK(env); /* * Send the NEWMASTER message first so that clients know * subsequent messages are coming from the right master. * We need to perform all actions below no matter what * regarding errors. */ (void)__rep_send_message(env, DB_EID_BROADCAST, REP_NEWMASTER, &lsn, NULL, 0, 0); ret = 0; if (role_chg) { pending_event = DB_EVENT_REP_MASTER; /* * If prepared transactions have not been restored * look to see if there are any. If there are, * then mark the open files, otherwise close them. */ region = env->tx_handle->reginfo.primary; if (region->stat.st_nrestores == 0 && (t_ret = __rep_restore_prepared(env)) != 0 && ret == 0) ret = t_ret; if (region->stat.st_nrestores != 0) { if ((t_ret = __dbreg_mark_restored(env)) != 0 && ret == 0) ret = t_ret; } else { ret = __dbreg_invalidate_files(env, 0); if ((t_ret = __rep_closefiles( env, 0)) != 0 && ret == 0) ret = t_ret; } if ((t_ret = __txn_recycle_id(env)) != 0 && ret == 0) ret = t_ret; REP_SYSTEM_LOCK(env); F_CLR(rep, REP_F_READY_API | REP_F_READY_OP); locked = 0; REP_SYSTEM_UNLOCK(env); (void)__memp_set_config( dbenv, DB_MEMP_SYNC_INTERRUPT, 0); } } else { announce = role_chg || rep->master_id == DB_EID_INVALID; if (role_chg) rep->master_id = DB_EID_INVALID; /* Zero out everything except recovery and tally flags. */ repflags = F_ISSET(rep, REP_F_NOARCHIVE | REP_F_READY_MSG | REP_F_RECOVER_MASK | REP_F_TALLY); FLD_SET(repflags, REP_F_CLIENT); if (role_chg) { if ((ret = __log_get_oldversion(env, &oldvers)) != 0) goto errunlock; RPRINT(env, DB_VERB_REP_MISC, (env, "rep_start: Found old version log %d", oldvers)); if (oldvers >= DB_LOGVERSION_MIN) { __log_set_version(env, oldvers); oldvers = __rep_conv_vers(env, oldvers); DB_ASSERT( env, oldvers != DB_REPVERSION_INVALID); rep->version = oldvers; } } rep->flags = repflags; /* * On a client, compute the lease duration on the * assumption that the client has a fast clock. * Expire any existing leases we might have held as * a master. */ if (IS_USING_LEASES(env) && (role_chg || !F_ISSET(rep, REP_F_START_CALLED))) { if ((ret = __rep_lease_expire(env, 1)) != 0) goto errunlock; /* * Since the master is also compensating on its * side as well, we're being doubly conservative * to compensate on the client side. Theoretically, * this compensation is not necessary, as it is * effectively doubling the skew compensation. * But we are making guarantees based on time and * skews across machines. So we are being extra * cautious. */ tmp = (db_timeout_t)((double)rep->lease_timeout * ((double)rep->clock_skew / (double)rep->clock_base)); DB_TIMEOUT_TO_TIMESPEC(tmp, &rep->lease_duration); if (rep->lease_off != INVALID_ROFF) { __env_alloc_free(infop, R_ADDR(infop, rep->lease_off)); rep->lease_off = INVALID_ROFF; } } REP_SYSTEM_UNLOCK(env); /* * Abort any prepared transactions that were restored * by recovery. We won't be able to create any txns of * our own until they're resolved, but we can't resolve * them ourselves; the master has to. If any get * resolved as commits, we'll redo them when commit * records come in. Aborts will simply be ignored. */ if ((ret = __rep_abort_prepared(env)) != 0) goto errlock; /* * If we're changing roles we need to init the db. */ if (role_chg) { if ((ret = db_create(&dbp, dbenv, 0)) != 0) goto errlock; /* * Ignore errors, because if the file doesn't exist, * this is perfectly OK. */ MUTEX_LOCK(env, rep->mtx_clientdb); (void)__db_remove(dbp, ip, NULL, REPDBNAME, NULL, DB_FORCE); MUTEX_UNLOCK(env, rep->mtx_clientdb); /* * Set pending_event after calls that can fail. */ pending_event = DB_EVENT_REP_CLIENT; } REP_SYSTEM_LOCK(env); F_CLR(rep, REP_F_READY_MSG); if (locked) { F_CLR(rep, REP_F_READY_API | REP_F_READY_OP); locked = 0; } REP_SYSTEM_UNLOCK(env); /* * If this client created a newly replicated environment, * then announce the existence of this client. The master * should respond with a message that will tell this client * the current generation number and the current LSN. This * will allow the client to either perform recovery or * simply join in. */ if (announce) { /* * If we think we're a new client, and we have a * private env, set our gen number down to 0. * Otherwise, we can restart and think * we're ready to accept a new record (because our * gen is okay), but really this client needs to * sync with the master. So, if we are announcing * ourselves force ourselves to find the master * and sync up. */ if (F_ISSET(env, ENV_PRIVATE)) rep->gen = 0; if ((ret = __dbt_usercopy(env, dbt)) != 0) goto out; (void)__rep_send_message(env, DB_EID_BROADCAST, REP_NEWCLIENT, NULL, dbt, 0, 0); } else (void)__rep_send_message(env, DB_EID_BROADCAST, REP_ALIVE_REQ, NULL, NULL, 0, 0); } if (0) { /* * We have separate labels for errors. If we're returning an * error before we've set REP_F_READY_MSG, we use 'err'. If * we are erroring while holding the region mutex, then we use * 'errunlock' label. If we error without holding the rep * mutex we must use 'errlock'. */ errlock: REP_SYSTEM_LOCK(env); errunlock: F_CLR(rep, REP_F_READY_MSG); if (locked) F_CLR(rep, REP_F_READY_API | REP_F_READY_OP); REP_SYSTEM_UNLOCK(env); } out: if (ret == 0) { REP_SYSTEM_LOCK(env); F_SET(rep, REP_F_START_CALLED); REP_SYSTEM_UNLOCK(env); } if (pending_event != DB_EVENT_NO_SUCH_EVENT) __rep_fire_event(env, pending_event, NULL); __dbt_userfree(env, dbt, NULL, NULL); ENV_LEAVE(env, ip); return (ret); } /* * __rep_client_dbinit -- * * Initialize the LSN database on the client side. This is called from the * client initialization code. The startup flag value indicates if * this is the first thread/process starting up and therefore should create * the LSN database. This routine must be called once by each process acting * as a client. * * Assumes caller holds appropriate mutex. * * PUBLIC: int __rep_client_dbinit __P((ENV *, int, repdb_t)); */ int __rep_client_dbinit(env, startup, which) ENV *env; int startup; repdb_t which; { DB *dbp, **rdbpp; DB_ENV *dbenv; DB_REP *db_rep; DB_THREAD_INFO *ip; REP *rep; int ret, t_ret; u_int32_t flags; const char *name; dbenv = env->dbenv; db_rep = env->rep_handle; rep = db_rep->region; dbp = NULL; if (which == REP_DB) { name = REPDBNAME; rdbpp = &db_rep->rep_db; } else { name = REPPAGENAME; rdbpp = &rep->file_dbp; } /* Check if this has already been called on this environment. */ if (*rdbpp != NULL) return (0); ENV_GET_THREAD_INFO(env, ip); if (startup) { if ((ret = db_create(&dbp, dbenv, 0)) != 0) goto err; /* * Ignore errors, because if the file doesn't exist, this * is perfectly OK. */ (void)__db_remove(dbp, ip, NULL, name, NULL, DB_FORCE); } if ((ret = db_create(&dbp, dbenv, 0)) != 0) goto err; if (which == REP_DB && (ret = __bam_set_bt_compare(dbp, __rep_bt_cmp)) != 0) goto err; /* Don't write log records on the client. */ if ((ret = __db_set_flags(dbp, DB_TXN_NOT_DURABLE)) != 0) goto err; flags = DB_NO_AUTO_COMMIT | DB_CREATE | (F_ISSET(env, ENV_THREAD) ? DB_THREAD : 0); if ((ret = __db_open(dbp, ip, NULL, name, NULL, (which == REP_DB ? DB_BTREE : DB_RECNO), flags, 0, PGNO_BASE_MD)) != 0) goto err; *rdbpp = dbp; if (0) { err: if (dbp != NULL && (t_ret = __db_close(dbp, NULL, DB_NOSYNC)) != 0 && ret == 0) ret = t_ret; *rdbpp = NULL; } return (ret); } /* * __rep_bt_cmp -- * * Comparison function for the LSN table. We use the entire control * structure as a key (for simplicity, so we don't have to merge the * other fields in the control with the data field), but really only * care about the LSNs. */ static int __rep_bt_cmp(dbp, dbt1, dbt2) DB *dbp; const DBT *dbt1, *dbt2; { DB_LSN lsn1, lsn2; __rep_control_args *rp1, *rp2; COMPQUIET(dbp, NULL); rp1 = dbt1->data; rp2 = dbt2->data; (void)__ua_memcpy(&lsn1, &rp1->lsn, sizeof(DB_LSN)); (void)__ua_memcpy(&lsn2, &rp2->lsn, sizeof(DB_LSN)); if (lsn1.file > lsn2.file) return (1); if (lsn1.file < lsn2.file) return (-1); if (lsn1.offset > lsn2.offset) return (1); if (lsn1.offset < lsn2.offset) return (-1); return (0); } /* * __rep_abort_prepared -- * Abort any prepared transactions that recovery restored. * * This is used by clients that have just run recovery, since * they cannot/should not call txn_recover and handle prepared transactions * themselves. */ static int __rep_abort_prepared(env) ENV *env; { #define PREPLISTSIZE 50 DB_LOG *dblp; DB_PREPLIST prep[PREPLISTSIZE], *p; DB_TXNMGR *mgr; DB_TXNREGION *region; LOG *lp; int ret; long count, i; u_int32_t op; mgr = env->tx_handle; region = mgr->reginfo.primary; dblp = env->lg_handle; lp = dblp->reginfo.primary; if (region->stat.st_nrestores == 0) return (0); op = DB_FIRST; do { if ((ret = __txn_recover(env, prep, PREPLISTSIZE, &count, op)) != 0) return (ret); for (i = 0; i < count; i++) { p = &prep[i]; if ((ret = __txn_abort(p->txn)) != 0) return (ret); env->rep_handle->region->op_cnt--; env->rep_handle->region->max_prep_lsn = lp->lsn; region->stat.st_nrestores--; } op = DB_NEXT; } while (count == PREPLISTSIZE); return (0); } /* * __rep_restore_prepared -- * Restore to a prepared state any prepared but not yet committed * transactions. * * This performs, in effect, a "mini-recovery"; it is called from * __rep_start by newly upgraded masters. There may be transactions that an * old master prepared but did not resolve, which we need to restore to an * active state. */ static int __rep_restore_prepared(env) ENV *env; { DBT rec; DB_LOGC *logc; DB_LSN ckp_lsn, lsn; DB_REP *db_rep; DB_TXNHEAD *txninfo; REP *rep; __txn_ckp_args *ckp_args; __txn_regop_args *regop_args; __txn_xa_regop_args *prep_args; int ret, t_ret; u_int32_t hi_txn, low_txn, rectype, status, txnid, txnop; db_rep = env->rep_handle; rep = db_rep->region; if (IS_ZERO_LSN(rep->max_prep_lsn)) { RPRINT(env, DB_VERB_REP_MISC, (env, "restore_prep: No prepares. Skip.")); return (0); } txninfo = NULL; ckp_args = NULL; prep_args = NULL; regop_args = NULL; ZERO_LSN(ckp_lsn); ZERO_LSN(lsn); if ((ret = __log_cursor(env, &logc)) != 0) return (ret); /* * Get our first LSN to see if the prepared LSN is still * available. If so, it might be unresolved. If not, * then it is guaranteed to be resolved. */ memset(&rec, 0, sizeof(DBT)); if ((ret = __logc_get(logc, &lsn, &rec, DB_FIRST)) != 0) { __db_errx(env, "First record not found"); goto err; } /* * If the max_prep_lsn is no longer available, we're sure * that txn has been resolved. We're done. */ if (rep->max_prep_lsn.file < lsn.file) { RPRINT(env, DB_VERB_REP_MISC, (env, "restore_prep: Prepare resolved. Skip")); ZERO_LSN(rep->max_prep_lsn); goto done; } /* * We need to consider the set of records between the most recent * checkpoint LSN and the end of the log; any txn in that * range, and only txns in that range, could still have been * active, and thus prepared but not yet committed (PBNYC), * when the old master died. * * Find the most recent checkpoint LSN, and get the record there. * If there is no checkpoint in the log, start off by getting * the very first record in the log instead. */ if ((ret = __txn_getckp(env, &lsn)) == 0) { if ((ret = __logc_get(logc, &lsn, &rec, DB_SET)) != 0) { __db_errx(env, "Checkpoint record at LSN [%lu][%lu] not found", (u_long)lsn.file, (u_long)lsn.offset); goto err; } if ((ret = __txn_ckp_read( env, rec.data, &ckp_args)) == 0) { ckp_lsn = ckp_args->ckp_lsn; __os_free(env, ckp_args); } if (ret != 0) { __db_errx(env, "Invalid checkpoint record at [%lu][%lu]", (u_long)lsn.file, (u_long)lsn.offset); goto err; } if ((ret = __logc_get(logc, &ckp_lsn, &rec, DB_SET)) != 0) { __db_errx(env, "Checkpoint LSN record [%lu][%lu] not found", (u_long)ckp_lsn.file, (u_long)ckp_lsn.offset); goto err; } } else if ((ret = __logc_get(logc, &lsn, &rec, DB_FIRST)) != 0) { if (ret == DB_NOTFOUND) { /* An empty log means no PBNYC txns. */ ret = 0; goto done; } __db_errx(env, "Attempt to get first log record failed"); goto err; } /* * We use the same txnlist infrastructure that recovery does; * it demands an estimate of the high and low txnids for * initialization. * * First, the low txnid. */ do { /* txnid is after rectype, which is a u_int32. */ LOGCOPY_32(env, &low_txn, (u_int8_t *)rec.data + sizeof(u_int32_t)); if (low_txn != 0) break; } while ((ret = __logc_get(logc, &lsn, &rec, DB_NEXT)) == 0); /* If there are no txns, there are no PBNYC txns. */ if (ret == DB_NOTFOUND) { ret = 0; goto done; } else if (ret != 0) goto err; /* Now, the high txnid. */ if ((ret = __logc_get(logc, &lsn, &rec, DB_LAST)) != 0) { /* * Note that DB_NOTFOUND is unacceptable here because we * had to have looked at some log record to get this far. */ __db_errx(env, "Final log record not found"); goto err; } do { /* txnid is after rectype, which is a u_int32. */ LOGCOPY_32(env, &hi_txn, (u_int8_t *)rec.data + sizeof(u_int32_t)); if (hi_txn != 0) break; } while ((ret = __logc_get(logc, &lsn, &rec, DB_PREV)) == 0); if (ret == DB_NOTFOUND) { ret = 0; goto done; } else if (ret != 0) goto err; /* We have a high and low txnid. Initialise the txn list. */ if ((ret = __db_txnlist_init(env, NULL, low_txn, hi_txn, NULL, &txninfo)) != 0) goto err; /* * Now, walk backward from the end of the log to ckp_lsn. Any * prepares that we hit without first hitting a commit or * abort belong to PBNYC txns, and we need to apply them and * restore them to a prepared state. * * Note that we wind up applying transactions out of order. * Since all PBNYC txns still held locks on the old master and * were isolated, this should be safe. */ F_SET(env->lg_handle, DBLOG_RECOVER); for (ret = __logc_get(logc, &lsn, &rec, DB_LAST); ret == 0 && LOG_COMPARE(&lsn, &ckp_lsn) > 0; ret = __logc_get(logc, &lsn, &rec, DB_PREV)) { LOGCOPY_32(env, &rectype, rec.data); switch (rectype) { case DB___txn_regop: /* * It's a commit or abort--but we don't care * which! Just add it to the list of txns * that are resolved. */ if ((ret = __txn_regop_read( env, rec.data, ®op_args)) != 0) goto err; txnid = regop_args->txnp->txnid; txnop = regop_args->opcode; __os_free(env, regop_args); ret = __db_txnlist_find(env, txninfo, txnid, &status); if (ret == DB_NOTFOUND) ret = __db_txnlist_add(env, txninfo, txnid, txnop, &lsn); else if (ret != 0) goto err; break; case DB___txn_xa_regop: /* * It's a prepare. If its not aborted and * we haven't put the txn on our list yet, it * hasn't been resolved, so apply and restore it. */ if ((ret = __txn_xa_regop_read( env, rec.data, &prep_args)) != 0) goto err; ret = __db_txnlist_find(env, txninfo, prep_args->txnp->txnid, &status); if (ret == DB_NOTFOUND) { if (prep_args->opcode == TXN_ABORT) ret = __db_txnlist_add(env, txninfo, prep_args->txnp->txnid, prep_args->opcode, &lsn); else if ((ret = __rep_process_txn(env, &rec)) == 0) { /* * We are guaranteed to be single * threaded here. We need to * account for this newly * instantiated txn in the op_cnt * so that it is counted when it is * resolved. */ rep->op_cnt++; ret = __txn_restore_txn(env, &lsn, prep_args); } } else if (ret != 0) goto err; __os_free(env, prep_args); break; default: continue; } } /* It's not an error to have hit the beginning of the log. */ if (ret == DB_NOTFOUND) ret = 0; done: err: t_ret = __logc_close(logc); F_CLR(env->lg_handle, DBLOG_RECOVER); if (txninfo != NULL) __db_txnlist_end(env, txninfo); return (ret == 0 ? t_ret : ret); } /* * __rep_get_limit -- * Get the limit on the amount of data that will be sent during a single * invocation of __rep_process_message. * * PUBLIC: int __rep_get_limit __P((DB_ENV *, u_int32_t *, u_int32_t *)); */ int __rep_get_limit(dbenv, gbytesp, bytesp) DB_ENV *dbenv; u_int32_t *gbytesp, *bytesp; { DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_get_limit", DB_INIT_REP); if (REP_ON(env)) { rep = db_rep->region; ENV_ENTER(env, ip); REP_SYSTEM_LOCK(env); if (gbytesp != NULL) *gbytesp = rep->gbytes; if (bytesp != NULL) *bytesp = rep->bytes; REP_SYSTEM_UNLOCK(env); ENV_LEAVE(env, ip); } else { if (gbytesp != NULL) *gbytesp = db_rep->gbytes; if (bytesp != NULL) *bytesp = db_rep->bytes; } return (0); } /* * __rep_set_limit -- * Set a limit on the amount of data that will be sent during a single * invocation of __rep_process_message. * * PUBLIC: int __rep_set_limit __P((DB_ENV *, u_int32_t, u_int32_t)); */ int __rep_set_limit(dbenv, gbytes, bytes) DB_ENV *dbenv; u_int32_t gbytes, bytes; { DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_set_limit", DB_INIT_REP); if (bytes > GIGABYTE) { gbytes += bytes / GIGABYTE; bytes = bytes % GIGABYTE; } if (REP_ON(env)) { rep = db_rep->region; ENV_ENTER(env, ip); REP_SYSTEM_LOCK(env); rep->gbytes = gbytes; rep->bytes = bytes; REP_SYSTEM_UNLOCK(env); ENV_LEAVE(env, ip); } else { db_rep->gbytes = gbytes; db_rep->bytes = bytes; } return (0); } /* * PUBLIC: int __rep_set_nsites __P((DB_ENV *, u_int32_t)); */ int __rep_set_nsites(dbenv, n) DB_ENV *dbenv; u_int32_t n; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_set_nsites", DB_INIT_REP); if (REP_ON(env)) { rep = db_rep->region; if (rep != NULL && F_ISSET(rep, REP_F_START_CALLED)) { __db_errx(env, "DB_ENV->rep_set_nsites: must be called before DB_ENV->rep_start"); return (EINVAL); } rep->config_nsites = n; } else db_rep->config_nsites = n; return (0); } /* * PUBLIC: int __rep_get_nsites __P((DB_ENV *, u_int32_t *)); */ int __rep_get_nsites(dbenv, n) DB_ENV *dbenv; u_int32_t *n; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; /* TODO: ENV_REQUIRES_CONFIG(... ) and/or ENV_NOT_CONFIGURED (?) */ if (REP_ON(env)) { rep = db_rep->region; *n = rep->config_nsites; } else *n = db_rep->config_nsites; return (0); } /* * PUBLIC: int __rep_set_priority __P((DB_ENV *, u_int32_t)); */ int __rep_set_priority(dbenv, priority) DB_ENV *dbenv; u_int32_t priority; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; if (REP_ON(env)) { rep = db_rep->region; rep->priority = priority; } else db_rep->my_priority = priority; return (0); } /* * PUBLIC: int __rep_get_priority __P((DB_ENV *, u_int32_t *)); */ int __rep_get_priority(dbenv, priority) DB_ENV *dbenv; u_int32_t *priority; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; if (REP_ON(env)) { rep = db_rep->region; *priority = rep->priority; } else *priority = db_rep->my_priority; return (0); } /* * PUBLIC: int __rep_set_timeout __P((DB_ENV *, int, db_timeout_t)); */ int __rep_set_timeout(dbenv, which, timeout) DB_ENV *dbenv; int which; db_timeout_t timeout; { DB_REP *db_rep; ENV *env; REP *rep; int ret; env = dbenv->env; db_rep = env->rep_handle; rep = db_rep->region; ret = 0; switch (which) { case DB_REP_CHECKPOINT_DELAY: if (REP_ON(env)) rep->chkpt_delay = timeout; else db_rep->chkpt_delay = timeout; break; case DB_REP_ELECTION_TIMEOUT: if (REP_ON(env)) rep->elect_timeout = timeout; else db_rep->elect_timeout = timeout; break; case DB_REP_FULL_ELECTION_TIMEOUT: if (REP_ON(env)) rep->full_elect_timeout = timeout; else db_rep->full_elect_timeout = timeout; break; case DB_REP_LEASE_TIMEOUT: if (REP_ON(env) && F_ISSET(rep, REP_F_START_CALLED)) { ret = EINVAL; __db_errx(env, "DB_ENV->rep_set_timeout: lease timeout must be set before DB_ENV->rep_start."); goto out; } if (REP_ON(env)) rep->lease_timeout = timeout; else db_rep->lease_timeout = timeout; break; #ifdef HAVE_REPLICATION_THREADS case DB_REP_ACK_TIMEOUT: db_rep->ack_timeout = timeout; break; case DB_REP_CONNECTION_RETRY: db_rep->connection_retry_wait = timeout; break; case DB_REP_ELECTION_RETRY: db_rep->election_retry_wait = timeout; break; case DB_REP_HEARTBEAT_MONITOR: db_rep->heartbeat_monitor_timeout = timeout; break; case DB_REP_HEARTBEAT_SEND: db_rep->heartbeat_frequency = timeout; break; #endif default: __db_errx(env, "Unknown timeout type argument to DB_ENV->rep_set_timeout"); ret = EINVAL; } out: return (ret); } /* * PUBLIC: int __rep_get_timeout __P((DB_ENV *, int, db_timeout_t *)); */ int __rep_get_timeout(dbenv, which, timeout) DB_ENV *dbenv; int which; db_timeout_t *timeout; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; rep = db_rep->region; switch (which) { case DB_REP_CHECKPOINT_DELAY: *timeout = REP_ON(env) ? rep->chkpt_delay : db_rep->chkpt_delay; break; case DB_REP_ELECTION_TIMEOUT: *timeout = REP_ON(env) ? rep->elect_timeout : db_rep->elect_timeout; break; case DB_REP_FULL_ELECTION_TIMEOUT: *timeout = REP_ON(env) ? rep->full_elect_timeout : db_rep->full_elect_timeout; break; case DB_REP_LEASE_TIMEOUT: *timeout = REP_ON(env) ? rep->lease_timeout : db_rep->lease_timeout; break; #ifdef HAVE_REPLICATION_THREADS case DB_REP_ACK_TIMEOUT: *timeout = db_rep->ack_timeout; break; case DB_REP_ELECTION_RETRY: *timeout = db_rep->election_retry_wait; break; case DB_REP_CONNECTION_RETRY: *timeout = db_rep->connection_retry_wait; break; #endif default: __db_errx(env, "unknown timeout type argument to DB_ENV->rep_get_timeout"); return (EINVAL); } return (0); } /* * __rep_get_request -- * Get the minimum and maximum number of log records that we wait * before retransmitting. * * PUBLIC: int __rep_get_request * PUBLIC: __P((DB_ENV *, db_timeout_t *, db_timeout_t *)); */ int __rep_get_request(dbenv, minp, maxp) DB_ENV *dbenv; db_timeout_t *minp, *maxp; { DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_get_request", DB_INIT_REP); if (REP_ON(env)) { rep = db_rep->region; ENV_ENTER(env, ip); /* * We acquire the mtx_region or mtx_clientdb mutexes as needed. */ REP_SYSTEM_LOCK(env); if (minp != NULL) DB_TIMESPEC_TO_TIMEOUT((*minp), &rep->request_gap, 0); if (maxp != NULL) DB_TIMESPEC_TO_TIMEOUT((*maxp), &rep->max_gap, 0); REP_SYSTEM_UNLOCK(env); ENV_LEAVE(env, ip); } else { if (minp != NULL) DB_TIMESPEC_TO_TIMEOUT((*minp), &db_rep->request_gap, 0); if (maxp != NULL) DB_TIMESPEC_TO_TIMEOUT((*maxp), &db_rep->max_gap, 0); } return (0); } /* * __rep_set_request -- * Set the minimum and maximum number of log records that we wait * before retransmitting. * * PUBLIC: int __rep_set_request __P((DB_ENV *, db_timeout_t, db_timeout_t)); */ int __rep_set_request(dbenv, min, max) DB_ENV *dbenv; db_timeout_t min, max; { DB_LOG *dblp; DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; LOG *lp; REP *rep; env = dbenv->env; db_rep = env->rep_handle; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_set_request", DB_INIT_REP); if (min == 0 || max < min) { __db_errx(env, "DB_ENV->rep_set_request: Invalid min or max values"); return (EINVAL); } if (REP_ON(env)) { rep = db_rep->region; ENV_ENTER(env, ip); /* * We acquire the mtx_region or mtx_clientdb mutexes as needed. */ REP_SYSTEM_LOCK(env); DB_TIMEOUT_TO_TIMESPEC(min, &rep->request_gap); DB_TIMEOUT_TO_TIMESPEC(max, &rep->max_gap); REP_SYSTEM_UNLOCK(env); MUTEX_LOCK(env, rep->mtx_clientdb); dblp = env->lg_handle; if (dblp != NULL && (lp = dblp->reginfo.primary) != NULL) { DB_TIMEOUT_TO_TIMESPEC(min, &lp->wait_ts); } MUTEX_UNLOCK(env, rep->mtx_clientdb); ENV_LEAVE(env, ip); } else { DB_TIMEOUT_TO_TIMESPEC(min, &db_rep->request_gap); DB_TIMEOUT_TO_TIMESPEC(max, &db_rep->max_gap); } return (0); } /* * __rep_set_transport -- * Set the transport function for replication. * * PUBLIC: int __rep_set_transport __P((DB_ENV *, int, * PUBLIC: int (*)(DB_ENV *, const DBT *, const DBT *, const DB_LSN *, * PUBLIC: int, u_int32_t))); */ int __rep_set_transport(dbenv, eid, f_send) DB_ENV *dbenv; int eid; int (*f_send) __P((DB_ENV *, const DBT *, const DBT *, const DB_LSN *, int, u_int32_t)); { DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; REP *rep; env = dbenv->env; if (f_send == NULL) { __db_errx(env, "DB_ENV->rep_set_transport: no send function specified"); return (EINVAL); } if (eid < 0) { __db_errx(env, "DB_ENV->rep_set_transport: eid must be greater than or equal to 0"); return (EINVAL); } db_rep = env->rep_handle; db_rep->send = f_send; if (REP_ON(env)) { rep = db_rep->region; ENV_ENTER(env, ip); REP_SYSTEM_LOCK(env); rep->eid = eid; REP_SYSTEM_UNLOCK(env); ENV_LEAVE(env, ip); } else db_rep->eid = eid; return (0); } /* * PUBLIC: int __rep_get_clockskew __P((DB_ENV *, u_int32_t *, u_int32_t *)); */ int __rep_get_clockskew(dbenv, fast_clockp, slow_clockp) DB_ENV *dbenv; u_int32_t *fast_clockp, *slow_clockp; { DB_REP *db_rep; ENV *env; REP *rep; env = dbenv->env; db_rep = env->rep_handle; if (REP_ON(env)) { rep = db_rep->region; *fast_clockp = rep->clock_skew; *slow_clockp = rep->clock_base; } else { *fast_clockp = db_rep->clock_skew; *slow_clockp = db_rep->clock_base; } return (0); } /* * PUBLIC: int __rep_set_clockskew __P((DB_ENV *, u_int32_t, u_int32_t)); */ int __rep_set_clockskew(dbenv, fast_clock, slow_clock) DB_ENV *dbenv; u_int32_t fast_clock, slow_clock; { DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; REP *rep; int ret; env = dbenv->env; db_rep = env->rep_handle; ret = 0; ENV_NOT_CONFIGURED( env, db_rep->region, "DB_ENV->rep_set_clockskew", DB_INIT_REP); /* * Check for valid values. The fast clock should be a larger * number than the slow clock. We use the slow clock value as * our base for adjustment - therefore, a 2% difference should * be fast == 102, slow == 100. Check for values being 0. If * they are, then set them both to 1 internally. * * We will use these numbers to compute the larger ratio to be * most conservative about the user's intention. */ if (fast_clock == 0 || slow_clock == 0) { /* * If one value is zero, reject if both aren't zero. */ if (slow_clock != 0 || fast_clock != 0) { __db_errx(env, "DB_ENV->rep_set_clockskew: Zero only valid for when used for both arguments"); return (EINVAL); } fast_clock = 1; slow_clock = 1; } if (fast_clock < slow_clock) { __db_errx(env, "DB_ENV->rep_set_clockskew: slow_clock value is larger than fast_clock_value"); return (EINVAL); } if (REP_ON(env)) { rep = db_rep->region; if (F_ISSET(rep, REP_F_START_CALLED)) { __db_errx(env, "DB_ENV->rep_set_clockskew: must be called before DB_ENV->rep_start"); return (EINVAL); } ENV_ENTER(env, ip); REP_SYSTEM_LOCK(env); rep->clock_skew = fast_clock; rep->clock_base = slow_clock; REP_SYSTEM_UNLOCK(env); ENV_LEAVE(env, ip); } else { db_rep->clock_skew = fast_clock; db_rep->clock_base = slow_clock; } return (ret); } /* * __rep_flush -- * Re-push the last log record to all clients, in case they've lost * messages and don't know it. * * PUBLIC: int __rep_flush __P((DB_ENV *)); */ int __rep_flush(dbenv) DB_ENV *dbenv; { DBT rec; DB_LOGC *logc; DB_LSN lsn; DB_THREAD_INFO *ip; ENV *env; int ret, t_ret; env = dbenv->env; ENV_REQUIRES_CONFIG_XX( env, rep_handle, "DB_ENV->rep_flush", DB_INIT_REP); ENV_ENTER(env, ip); if ((ret = __log_cursor(env, &logc)) != 0) return (ret); memset(&rec, 0, sizeof(rec)); memset(&lsn, 0, sizeof(lsn)); if ((ret = __logc_get(logc, &lsn, &rec, DB_LAST)) != 0) goto err; (void)__rep_send_message(env, DB_EID_BROADCAST, REP_LOG, &lsn, &rec, 0, 0); err: if ((t_ret = __logc_close(logc)) != 0 && ret == 0) ret = t_ret; ENV_LEAVE(env, ip); return (ret); } /* * __rep_sync -- * Force a synchronization to occur between this client and the master. * This is the other half of configuring DELAYCLIENT. * * PUBLIC: int __rep_sync __P((DB_ENV *, u_int32_t)); */ int __rep_sync(dbenv, flags) DB_ENV *dbenv; u_int32_t flags; { DB_LOG *dblp; DB_LSN lsn; DB_REP *db_rep; DB_THREAD_INFO *ip; ENV *env; LOG *lp; REP *rep; int master, ret; u_int32_t repflags, type; env = dbenv->env; COMPQUIET(flags, 0); ENV_REQUIRES_CONFIG_XX( env, rep_handle, "DB_ENV->rep_sync", DB_INIT_REP); dblp = env->lg_handle; lp = dblp->reginfo.primary; db_rep = env->rep_handle; rep = db_rep->region; ret = 0; ENV_ENTER(env, ip); /* * Simple cases. If we're not in the DELAY state we have nothing * to do. If we don't know who the master is, send a MASTER_REQ. */ MUTEX_LOCK(env, rep->mtx_clientdb); lsn = lp->verify_lsn; MUTEX_UNLOCK(env, rep->mtx_clientdb); REP_SYSTEM_LOCK(env); master = rep->master_id; if (master == DB_EID_INVALID) { REP_SYSTEM_UNLOCK(env); (void)__rep_send_message(env, DB_EID_BROADCAST, REP_MASTER_REQ, NULL, NULL, 0, 0); goto out; } /* * We want to hold the rep mutex to test and then clear the * DELAY flag. Racing threads in here could otherwise result * in dual data streams. */ if (!F_ISSET(rep, REP_F_DELAY)) { REP_SYSTEM_UNLOCK(env); goto out; } DB_ASSERT(env, !IS_USING_LEASES(env) || __rep_islease_granted(env) == 0); /* * If we get here, we clear the delay flag and kick off a * synchronization. From this point forward, we will * synchronize until the next time the master changes. */ F_CLR(rep, REP_F_DELAY); if (IS_ZERO_LSN(lsn) && FLD_ISSET(rep->config, REP_C_NOAUTOINIT)) { F_CLR(rep, REP_F_NOARCHIVE | REP_F_RECOVER_MASK); ret = DB_REP_JOIN_FAILURE; REP_SYSTEM_UNLOCK(env); goto out; } REP_SYSTEM_UNLOCK(env); /* * When we set REP_F_DELAY, we set verify_lsn to the real verify lsn if * we need to verify, or we zeroed it out if this is a client that needs * internal init. So, send the type of message now that * __rep_new_master delayed sending. */ if (IS_ZERO_LSN(lsn)) { DB_ASSERT(env, F_ISSET(rep, REP_F_RECOVER_UPDATE)); type = REP_UPDATE_REQ; repflags = 0; } else { DB_ASSERT(env, F_ISSET(rep, REP_F_RECOVER_VERIFY)); type = REP_VERIFY_REQ; repflags = DB_REP_ANYWHERE; } (void)__rep_send_message(env, master, type, &lsn, NULL, 0, repflags); out: ENV_LEAVE(env, ip); return (ret); } /* * __rep_conv_vers -- * Convert from a log version to the replication message version * that release used. */ static u_int32_t __rep_conv_vers(env, log_ver) ENV *env; u_int32_t log_ver; { COMPQUIET(env, NULL); /* * We can't use a switch statement, some of the DB_LOGVERSION_XX * constants are the same */ if (log_ver == DB_LOGVERSION_44) return (DB_REPVERSION_44); if (log_ver == DB_LOGVERSION_45) return (DB_REPVERSION_45); if (log_ver == DB_LOGVERSION_46) return (DB_REPVERSION_46); if (log_ver == DB_LOGVERSION_47) return (DB_REPVERSION_47); return (DB_REPVERSION_INVALID); }