/*------------------------------------------------------------------------- * * spccache.c * Tablespace cache management. * * We cache the parsed version of spcoptions for each tablespace to avoid * needing to reparse on every lookup. Right now, there doesn't appear to * be a measurable performance gain from doing this, but that might change * in the future as we add more options. * * Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * src/backend/utils/cache/spccache.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/reloptions.h" #include "catalog/pg_tablespace.h" #include "commands/tablespace.h" #include "miscadmin.h" #include "optimizer/optimizer.h" #include "storage/bufmgr.h" #include "utils/catcache.h" #include "utils/hsearch.h" #include "utils/inval.h" #include "utils/spccache.h" #include "utils/syscache.h" /* Hash table for information about each tablespace */ static HTAB *TableSpaceCacheHash = NULL; typedef struct { Oid oid; /* lookup key - must be first */ TableSpaceOpts *opts; /* options, or NULL if none */ } TableSpaceCacheEntry; /* * InvalidateTableSpaceCacheCallback * Flush all cache entries when pg_tablespace is updated. * * When pg_tablespace is updated, we must flush the cache entry at least * for that tablespace. Currently, we just flush them all. This is quick * and easy and doesn't cost much, since there shouldn't be terribly many * tablespaces, nor do we expect them to be frequently modified. */ static void InvalidateTableSpaceCacheCallback(Datum arg, int cacheid, uint32 hashvalue) { HASH_SEQ_STATUS status; TableSpaceCacheEntry *spc; hash_seq_init(&status, TableSpaceCacheHash); while ((spc = (TableSpaceCacheEntry *) hash_seq_search(&status)) != NULL) { if (spc->opts) pfree(spc->opts); if (hash_search(TableSpaceCacheHash, (void *) &spc->oid, HASH_REMOVE, NULL) == NULL) elog(ERROR, "hash table corrupted"); } } /* * InitializeTableSpaceCache * Initialize the tablespace cache. */ static void InitializeTableSpaceCache(void) { HASHCTL ctl; /* Initialize the hash table. */ ctl.keysize = sizeof(Oid); ctl.entrysize = sizeof(TableSpaceCacheEntry); TableSpaceCacheHash = hash_create("TableSpace cache", 16, &ctl, HASH_ELEM | HASH_BLOBS); /* Make sure we've initialized CacheMemoryContext. */ if (!CacheMemoryContext) CreateCacheMemoryContext(); /* Watch for invalidation events. */ CacheRegisterSyscacheCallback(TABLESPACEOID, InvalidateTableSpaceCacheCallback, (Datum) 0); } /* * get_tablespace * Fetch TableSpaceCacheEntry structure for a specified table OID. * * Pointers returned by this function should not be stored, since a cache * flush will invalidate them. */ static TableSpaceCacheEntry * get_tablespace(Oid spcid) { TableSpaceCacheEntry *spc; HeapTuple tp; TableSpaceOpts *opts; /* * Since spcid is always from a pg_class tuple, InvalidOid implies the * default. */ if (spcid == InvalidOid) spcid = MyDatabaseTableSpace; /* Find existing cache entry, if any. */ if (!TableSpaceCacheHash) InitializeTableSpaceCache(); spc = (TableSpaceCacheEntry *) hash_search(TableSpaceCacheHash, (void *) &spcid, HASH_FIND, NULL); if (spc) return spc; /* * Not found in TableSpace cache. Check catcache. If we don't find a * valid HeapTuple, it must mean someone has managed to request tablespace * details for a non-existent tablespace. We'll just treat that case as * if no options were specified. */ tp = SearchSysCache1(TABLESPACEOID, ObjectIdGetDatum(spcid)); if (!HeapTupleIsValid(tp)) opts = NULL; else { Datum datum; bool isNull; datum = SysCacheGetAttr(TABLESPACEOID, tp, Anum_pg_tablespace_spcoptions, &isNull); if (isNull) opts = NULL; else { bytea *bytea_opts = tablespace_reloptions(datum, false); opts = MemoryContextAlloc(CacheMemoryContext, VARSIZE(bytea_opts)); memcpy(opts, bytea_opts, VARSIZE(bytea_opts)); } ReleaseSysCache(tp); } /* * Now create the cache entry. It's important to do this only after * reading the pg_tablespace entry, since doing so could cause a cache * flush. */ spc = (TableSpaceCacheEntry *) hash_search(TableSpaceCacheHash, (void *) &spcid, HASH_ENTER, NULL); spc->opts = opts; return spc; } /* * get_tablespace_page_costs * Return random and/or sequential page costs for a given tablespace. * * This value is not locked by the transaction, so this value may * be changed while a SELECT that has used these values for planning * is still executing. */ void get_tablespace_page_costs(Oid spcid, double *spc_random_page_cost, double *spc_seq_page_cost) { TableSpaceCacheEntry *spc = get_tablespace(spcid); Assert(spc != NULL); if (spc_random_page_cost) { if (!spc->opts || spc->opts->random_page_cost < 0) *spc_random_page_cost = random_page_cost; else *spc_random_page_cost = spc->opts->random_page_cost; } if (spc_seq_page_cost) { if (!spc->opts || spc->opts->seq_page_cost < 0) *spc_seq_page_cost = seq_page_cost; else *spc_seq_page_cost = spc->opts->seq_page_cost; } } /* * get_tablespace_io_concurrency * * This value is not locked by the transaction, so this value may * be changed while a SELECT that has used these values for planning * is still executing. */ int get_tablespace_io_concurrency(Oid spcid) { TableSpaceCacheEntry *spc = get_tablespace(spcid); if (!spc->opts || spc->opts->effective_io_concurrency < 0) return effective_io_concurrency; else return spc->opts->effective_io_concurrency; } /* * get_tablespace_maintenance_io_concurrency */ int get_tablespace_maintenance_io_concurrency(Oid spcid) { TableSpaceCacheEntry *spc = get_tablespace(spcid); if (!spc->opts || spc->opts->maintenance_io_concurrency < 0) return maintenance_io_concurrency; else return spc->opts->maintenance_io_concurrency; }