/*------------------------------------------------------------------------- * * postinit.c * postgres initialization utilities * * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/utils/init/postinit.c,v 1.93 2001/09/29 04:02:25 tgl Exp $ * * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include #include #include #include #include "catalog/catalog.h" #include "access/heapam.h" #include "catalog/catname.h" #include "catalog/pg_database.h" #include "catalog/pg_shadow.h" #include "commands/trigger.h" #include "commands/variable.h" /* for set_default_client_encoding() */ #include "mb/pg_wchar.h" #include "miscadmin.h" #include "storage/backendid.h" #include "storage/proc.h" #include "storage/sinval.h" #include "storage/smgr.h" #include "utils/fmgroids.h" #include "utils/portal.h" #include "utils/relcache.h" #include "utils/syscache.h" #include "utils/temprel.h" static void ReverifyMyDatabase(const char *name); static void InitCommunication(void); static void ShutdownPostgres(void); static bool ThereIsAtLeastOneUser(void); /*** InitPostgres support ***/ /* -------------------------------- * ReverifyMyDatabase * * Since we are forced to fetch the database OID out of pg_database without * benefit of locking or transaction ID checking (see utils/misc/database.c), * we might have gotten a wrong answer. Or, we might have attached to a * database that's in process of being destroyed by destroydb(). This * routine is called after we have all the locking and other infrastructure * running --- now we can check that we are really attached to a valid * database. * * In reality, if destroydb() is running in parallel with our startup, * it's pretty likely that we will have failed before now, due to being * unable to read some of the system tables within the doomed database. * This routine just exists to make *sure* we have not started up in an * invalid database. If we quit now, we should have managed to avoid * creating any serious problems. * * This is also a handy place to fetch the database encoding info out * of pg_database, if we are in MULTIBYTE mode. * -------------------------------- */ static void ReverifyMyDatabase(const char *name) { Relation pgdbrel; HeapScanDesc pgdbscan; ScanKeyData key; HeapTuple tup; Form_pg_database dbform; /* * Because we grab AccessShareLock here, we can be sure that destroydb * is not running in parallel with us (any more). */ pgdbrel = heap_openr(DatabaseRelationName, AccessShareLock); ScanKeyEntryInitialize(&key, 0, Anum_pg_database_datname, F_NAMEEQ, NameGetDatum(name)); pgdbscan = heap_beginscan(pgdbrel, 0, SnapshotNow, 1, &key); tup = heap_getnext(pgdbscan, 0); if (!HeapTupleIsValid(tup) || tup->t_data->t_oid != MyDatabaseId) { /* OOPS */ heap_close(pgdbrel, AccessShareLock); /* * The only real problem I could have created is to load dirty * buffers for the dead database into shared buffer cache; if I * did, some other backend will eventually try to write them and * die in mdblindwrt. Flush any such pages to forestall trouble. */ DropBuffers(MyDatabaseId); /* Now I can commit hara-kiri with a clear conscience... */ elog(FATAL, "Database \"%s\", OID %u, has disappeared from pg_database", name, MyDatabaseId); } /* * Also check that the database is currently allowing connections. */ dbform = (Form_pg_database) GETSTRUCT(tup); if (!dbform->datallowconn) elog(FATAL, "Database \"%s\" is not currently accepting connections", name); /* * OK, we're golden. Only other to-do item is to save the MULTIBYTE * encoding info out of the pg_database tuple --- or complain, if we * can't support it. */ #ifdef MULTIBYTE SetDatabaseEncoding(dbform->encoding); #else if (dbform->encoding != PG_SQL_ASCII) elog(FATAL, "database was initialized with MULTIBYTE encoding %d,\n\tbut the backend was compiled without multibyte support.\n\tlooks like you need to initdb or recompile.", dbform->encoding); #endif heap_endscan(pgdbscan); heap_close(pgdbrel, AccessShareLock); } /* -------------------------------- * InitCommunication * * This routine initializes stuff needed for ipc, locking, etc. * it should be called something more informative. * -------------------------------- */ static void InitCommunication(void) { /* * initialize shared memory and semaphores appropriately. */ if (!IsUnderPostmaster) /* postmaster already did this */ { /* * we're running a postgres backend by itself with no front end or * postmaster. Create private "shmem" and semaphores. Setting * MaxBackends = 16 is arbitrary. */ CreateSharedMemoryAndSemaphores(true, 16); } } /* * Early initialization of a backend (either standalone or under postmaster). * This happens even before InitPostgres. * * If you're wondering why this is separate from InitPostgres at all: * the critical distinction is that this stuff has to happen before we can * run XLOG-related initialization, which is done before InitPostgres --- in * fact, for cases such as checkpoint creation processes, InitPostgres may * never be done at all. */ void BaseInit(void) { /* * Attach to shared memory and semaphores, and initialize our * input/output/debugging file descriptors. */ InitCommunication(); DebugFileOpen(); /* Do local initialization of storage and buffer managers */ smgrinit(); InitBufferPoolAccess(); InitLocalBuffer(); } /* -------------------------------- * InitPostgres * Initialize POSTGRES. * * Note: * Be very careful with the order of calls in the InitPostgres function. * -------------------------------- */ void InitPostgres(const char *dbname, const char *username) { bool bootstrap = IsBootstrapProcessingMode(); /* * Set up the global variables holding database name, id, and path. * * We take a shortcut in the bootstrap case, otherwise we have to look up * the db name in pg_database. */ SetDatabaseName(dbname); if (bootstrap) { MyDatabaseId = TemplateDbOid; SetDatabasePath(GetDatabasePath(MyDatabaseId)); } else { char *fullpath, datpath[MAXPGPATH]; /* Verify if DataDir is ok */ if (access(DataDir, F_OK) == -1) elog(FATAL, "Database system not found.\n\t" "Data directory '%s' does not exist.", DataDir); ValidatePgVersion(DataDir); /* * Find oid and path of the database we're about to open. Since * we're not yet up and running we have to use the hackish * GetRawDatabaseInfo. */ GetRawDatabaseInfo(dbname, &MyDatabaseId, datpath); if (!OidIsValid(MyDatabaseId)) elog(FATAL, "Database \"%s\" does not exist in the system catalog.", dbname); fullpath = GetDatabasePath(MyDatabaseId); /* Verify the database path */ if (access(fullpath, F_OK) == -1) elog(FATAL, "Database \"%s\" does not exist.\n\t" "The database subdirectory '%s' is missing.", dbname, fullpath); ValidatePgVersion(fullpath); if (chdir(fullpath) == -1) elog(FATAL, "Unable to change directory to '%s': %m", fullpath); SetDatabasePath(fullpath); } /* * Code after this point assumes we are in the proper directory! */ /* * Set up my per-backend PROC struct in shared memory. (We need to * know MyDatabaseId before we can do this, since it's entered into * the PROC struct.) */ InitProcess(); /* * Initialize my entry in the shared-invalidation manager's array of * per-backend data. (Formerly this came before InitProcess, but now * it must happen after, because it uses MyProc.) Once I have done * this, I am visible to other backends! * * Sets up MyBackendId, a unique backend identifier. */ MyBackendId = InvalidBackendId; InitBackendSharedInvalidationState(); if (MyBackendId > MaxBackends || MyBackendId <= 0) elog(FATAL, "InitPostgres: bad backend id %d", MyBackendId); /* * Initialize the transaction system override state. */ AmiTransactionOverride(bootstrap); /* * Initialize the relation descriptor cache. * The pre-allocated reldescs are created here. */ RelationCacheInitialize(); /* * Initialize the access methods. Does not touch files (?) - thomas * 1997-11-01 */ initam(); /* * Initialize all the system catalog caches. * * Does not touch files since all routines are builtins (?) - thomas * 1997-11-01 */ InitCatalogCache(); /* Initialize portal manager */ EnablePortalManager(); /* * Initialize the deferred trigger manager --- must happen before * first transaction start. */ DeferredTriggerInit(); /* start a new transaction here before access to db */ if (!bootstrap) StartTransactionCommand(); /* replace faked-up relcache entries with the real info */ RelationCacheInitializePhase2(); /* * Figure out our postgres user id. In standalone mode we use a * fixed id, otherwise we figure it out from the authenticated * user name. */ if (bootstrap) InitializeSessionUserIdStandalone(); else if (!IsUnderPostmaster) { InitializeSessionUserIdStandalone(); if (!ThereIsAtLeastOneUser()) { elog(NOTICE, "There are currently no users defined in this database system."); elog(NOTICE, "You should immediately run 'CREATE USER \"%s\" WITH SYSID %d CREATEUSER;'.", username, BOOTSTRAP_USESYSID); } } else /* normal multiuser case */ InitializeSessionUserId(username); /* * Unless we are bootstrapping, double-check that InitMyDatabaseInfo() * got a correct result. We can't do this until all the * database-access infrastructure is up. */ if (!bootstrap) ReverifyMyDatabase(dbname); #ifdef MULTIBYTE /* set default client encoding --- uses info from ReverifyMyDatabase */ set_default_client_encoding(); #endif /* * Set up process-exit callbacks to remove temp relations and then do * pre-shutdown cleanup. This should be last because we want * shmem_exit to call these routines before the exit callbacks that * are registered by buffer manager, lock manager, etc. We need to * run this code before we close down database access! */ on_shmem_exit(ShutdownPostgres, 0); /* * because callbacks are called in reverse order, this gets done * first: */ on_shmem_exit(remove_all_temp_relations, 0); /* close the transaction we started above */ if (!bootstrap) CommitTransactionCommand(); } /* * Backend-shutdown callback. Do cleanup that we want to be sure happens * before all the supporting modules begin to nail their doors shut via * their own callbacks. Note that because this has to be registered very * late in startup, it will not get called if we suffer a failure *during* * startup. * * User-level cleanup, such as temp-relation removal and UNLISTEN, happens * via separate callbacks that execute before this one. We don't combine the * callbacks because we still want this one to happen if the user-level * cleanup fails. */ static void ShutdownPostgres(void) { /* * These operations are really just a minimal subset of * AbortTransaction(). We don't want to do any inessential cleanup, * since that just raises the odds of failure --- but there's some * stuff we need to do. * * Release any LW locks and buffer context locks we might be holding. * This is a kluge to improve the odds that we won't get into a * self-made stuck-lock scenario while trying to shut down. */ LWLockReleaseAll(); AbortBufferIO(); UnlockBuffers(); /* * In case a transaction is open, delete any files it created. This * has to happen before bufmgr shutdown, so having smgr register a * callback for it wouldn't work. */ smgrDoPendingDeletes(false);/* delete as though aborting xact */ } /* * Returns true if at least one user is defined in this database cluster. */ static bool ThereIsAtLeastOneUser(void) { Relation pg_shadow_rel; TupleDesc pg_shadow_dsc; HeapScanDesc scan; bool result; pg_shadow_rel = heap_openr(ShadowRelationName, AccessExclusiveLock); pg_shadow_dsc = RelationGetDescr(pg_shadow_rel); scan = heap_beginscan(pg_shadow_rel, false, SnapshotNow, 0, 0); result = HeapTupleIsValid(heap_getnext(scan, 0)); heap_endscan(scan); heap_close(pg_shadow_rel, AccessExclusiveLock); return result; }