/*------------------------------------------------------------------------- * * sinval.h * POSTGRES shared cache invalidation communication definitions. * * * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/storage/sinval.h * *------------------------------------------------------------------------- */ #ifndef SINVAL_H #define SINVAL_H #include #include "storage/relfilenode.h" /* * We support several types of shared-invalidation messages: * * invalidate a specific tuple in a specific catcache * * invalidate all catcache entries from a given system catalog * * invalidate a relcache entry for a specific logical relation * * invalidate all relcache entries * * invalidate an smgr cache entry for a specific physical relation * * invalidate the mapped-relation mapping for a given database * * invalidate any saved snapshot that might be used to scan a given relation * More types could be added if needed. The message type is identified by * the first "int8" field of the message struct. Zero or positive means a * specific-catcache inval message (and also serves as the catcache ID field). * Negative values identify the other message types, as per codes below. * * Catcache inval events are initially driven by detecting tuple inserts, * updates and deletions in system catalogs (see CacheInvalidateHeapTuple). * An update can generate two inval events, one for the old tuple and one for * the new, but this is reduced to one event if the tuple's hash key doesn't * change. Note that the inval events themselves don't actually say whether * the tuple is being inserted or deleted. Also, since we transmit only a * hash key, there is a small risk of unnecessary invalidations due to chance * matches of hash keys. * * Note that some system catalogs have multiple caches on them (with different * indexes). On detecting a tuple invalidation in such a catalog, separate * catcache inval messages must be generated for each of its caches, since * the hash keys will generally be different. * * Catcache, relcache, and snapshot invalidations are transactional, and so * are sent to other backends upon commit. Internally to the generating * backend, they are also processed at CommandCounterIncrement so that later * commands in the same transaction see the new state. The generating backend * also has to process them at abort, to flush out any cache state it's loaded * from no-longer-valid entries. * * smgr and relation mapping invalidations are non-transactional: they are * sent immediately when the underlying file change is made. */ typedef struct { int8 id; /* cache ID --- must be first */ Oid dbId; /* database ID, or 0 if a shared relation */ uint32 hashValue; /* hash value of key for this catcache */ } SharedInvalCatcacheMsg; #define SHAREDINVALCATALOG_ID (-1) typedef struct { int8 id; /* type field --- must be first */ Oid dbId; /* database ID, or 0 if a shared catalog */ Oid catId; /* ID of catalog whose contents are invalid */ } SharedInvalCatalogMsg; #define SHAREDINVALRELCACHE_ID (-2) typedef struct { int8 id; /* type field --- must be first */ Oid dbId; /* database ID, or 0 if a shared relation */ Oid relId; /* relation ID, or 0 if whole relcache */ } SharedInvalRelcacheMsg; #define SHAREDINVALSMGR_ID (-3) typedef struct { /* note: field layout chosen to pack into 16 bytes */ int8 id; /* type field --- must be first */ int8 backend_hi; /* high bits of backend ID, if temprel */ uint16 backend_lo; /* low bits of backend ID, if temprel */ RelFileNode rnode; /* spcNode, dbNode, relNode */ } SharedInvalSmgrMsg; #define SHAREDINVALRELMAP_ID (-4) typedef struct { int8 id; /* type field --- must be first */ Oid dbId; /* database ID, or 0 for shared catalogs */ } SharedInvalRelmapMsg; #define SHAREDINVALSNAPSHOT_ID (-5) typedef struct { int8 id; /* type field --- must be first */ Oid dbId; /* database ID, or 0 if a shared relation */ Oid relId; /* relation ID */ } SharedInvalSnapshotMsg; typedef union { int8 id; /* type field --- must be first */ SharedInvalCatcacheMsg cc; SharedInvalCatalogMsg cat; SharedInvalRelcacheMsg rc; SharedInvalSmgrMsg sm; SharedInvalRelmapMsg rm; SharedInvalSnapshotMsg sn; } SharedInvalidationMessage; /* Counter of messages processed; don't worry about overflow. */ extern uint64 SharedInvalidMessageCounter; extern volatile sig_atomic_t catchupInterruptPending; extern void SendSharedInvalidMessages(const SharedInvalidationMessage *msgs, int n); extern void ReceiveSharedInvalidMessages(void (*invalFunction) (SharedInvalidationMessage *msg), void (*resetFunction) (void)); /* signal handler for catchup events (PROCSIG_CATCHUP_INTERRUPT) */ extern void HandleCatchupInterrupt(void); /* * enable/disable processing of catchup events directly from signal handler. * The enable routine first performs processing of any catchup events that * have occurred since the last disable. */ extern void ProcessCatchupInterrupt(void); extern int xactGetCommittedInvalidationMessages(SharedInvalidationMessage **msgs, bool *RelcacheInitFileInval); extern void ProcessCommittedInvalidationMessages(SharedInvalidationMessage *msgs, int nmsgs, bool RelcacheInitFileInval, Oid dbid, Oid tsid); extern void LocalExecuteInvalidationMessage(SharedInvalidationMessage *msg); #endif /* SINVAL_H */