/*------------------------------------------------------------------------- * * large_object.h * Declarations for PostgreSQL large objects. POSTGRES 4.2 supported * zillions of large objects (internal, external, jaquith, inversion). * Now we only support inversion. * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/storage/large_object.h * *------------------------------------------------------------------------- */ #ifndef LARGE_OBJECT_H #define LARGE_OBJECT_H #include "utils/snapshot.h" /*---------- * Data about a currently-open large object. * * id is the logical OID of the large object * snapshot is the snapshot to use for read/write operations * subid is the subtransaction that opened the desc (or currently owns it) * offset is the current seek offset within the LO * flags contains some flag bits * * NOTE: as of v11, permission checks are made when the large object is * opened; therefore IFS_RDLOCK/IFS_WRLOCK indicate that read or write mode * has been requested *and* the corresponding permission has been checked. * * NOTE: before 7.1, we also had to store references to the separate table * and index of a specific large object. Now they all live in pg_largeobject * and are accessed via a common relation descriptor. *---------- */ typedef struct LargeObjectDesc { Oid id; /* LO's identifier */ Snapshot snapshot; /* snapshot to use */ SubTransactionId subid; /* owning subtransaction ID */ uint64 offset; /* current seek pointer */ int flags; /* see flag bits below */ /* bits in flags: */ #define IFS_RDLOCK (1 << 0) /* LO was opened for reading */ #define IFS_WRLOCK (1 << 1) /* LO was opened for writing */ } LargeObjectDesc; /* * Each "page" (tuple) of a large object can hold this much data * * We could set this as high as BLCKSZ less some overhead, but it seems * better to make it a smaller value, so that not as much space is used * up when a page-tuple is updated. Note that the value is deliberately * chosen large enough to trigger the tuple toaster, so that we will * attempt to compress page tuples in-line. (But they won't be moved off * unless the user creates a toast-table for pg_largeobject...) * * Also, it seems to be a smart move to make the page size be a power of 2, * since clients will often be written to send data in power-of-2 blocks. * This avoids unnecessary tuple updates caused by partial-page writes. * * NB: Changing LOBLKSIZE requires an initdb. */ #define LOBLKSIZE (BLCKSZ / 4) /* * Maximum length in bytes for a large object. To make this larger, we'd * have to widen pg_largeobject.pageno as well as various internal variables. */ #define MAX_LARGE_OBJECT_SIZE ((int64) INT_MAX * LOBLKSIZE) /* * GUC: backwards-compatibility flag to suppress LO permission checks */ extern bool lo_compat_privileges; /* * Function definitions... */ /* inversion stuff in inv_api.c */ extern void close_lo_relation(bool isCommit); extern Oid inv_create(Oid lobjId); extern LargeObjectDesc *inv_open(Oid lobjId, int flags, MemoryContext mcxt); extern void inv_close(LargeObjectDesc *obj_desc); extern int inv_drop(Oid lobjId); extern int64 inv_seek(LargeObjectDesc *obj_desc, int64 offset, int whence); extern int64 inv_tell(LargeObjectDesc *obj_desc); extern int inv_read(LargeObjectDesc *obj_desc, char *buf, int nbytes); extern int inv_write(LargeObjectDesc *obj_desc, const char *buf, int nbytes); extern void inv_truncate(LargeObjectDesc *obj_desc, int64 len); #endif /* LARGE_OBJECT_H */