34.3. Client Interfaces
- 34.3.1. Creating a Large Object
- 34.3.2. Importing a Large Object
- 34.3.3. Exporting a Large Object
- 34.3.4. Opening an Existing Large Object
- 34.3.5. Writing Data to a Large Object
- 34.3.6. Reading Data from a Large Object
- 34.3.7. Seeking in a Large Object
- 34.3.8. Obtaining the Seek Position of a Large Object
- 34.3.9. Truncating a Large Object
- 34.3.10. Closing a Large Object Descriptor
- 34.3.11. Removing a Large Object
- 34.3.2. Importing a Large Object
This section describes the facilities that PostgreSQL's libpq client interface library provides for accessing large objects. The PostgreSQL large object interface is modeled after the Unix file-system interface, with analogues of open
, read
, write
, lseek
, etc.
All large object manipulation using these functions must take place within an SQL transaction block, since large object file descriptors are only valid for the duration of a transaction.
If an error occurs while executing any one of these functions, the function will return an otherwise-impossible value, typically 0 or -1. A message describing the error is stored in the connection object and can be retrieved with PQerrorMessage
.
Client applications that use these functions should include the header file libpq/libpq-fs.h
and link with the libpq library.
34.3.1. Creating a Large Object
Oid lo_creat(PGconn *conn, int mode);
creates a new large object. The return value is the OID that was assigned to the new large object, or InvalidOid
(zero) on failure. mode
is unused and ignored as of PostgreSQL 8.1; however, for backward compatibility with earlier releases it is best to set it to INV_READ
, INV_WRITE
, or INV_READ
|
INV_WRITE
. (These symbolic constants are defined in the header file libpq/libpq-fs.h
.)
An example:
inv_oid = lo_creat(conn, INV_READ|INV_WRITE);
Oid lo_create(PGconn *conn, Oid lobjId);
also creates a new large object. The OID to be assigned can be specified by lobjId
; if so, failure occurs if that OID is already in use for some large object. If lobjId
is InvalidOid
(zero) then lo_create
assigns an unused OID (this is the same behavior as lo_creat
). The return value is the OID that was assigned to the new large object, or InvalidOid
(zero) on failure.
lo_create
is new as of PostgreSQL 8.1; if this function is run against an older server version, it will fail and return InvalidOid
.
An example:
inv_oid = lo_create(conn, desired_oid);
34.3.2. Importing a Large Object
To import an operating system file as a large object, call
Oid lo_import(PGconn *conn, const char *filename);
filename
specifies the operating system name of the file to be imported as a large object. The return value is the OID that was assigned to the new large object, or InvalidOid
(zero) on failure. Note that the file is read by the client interface library, not by the server; so it must exist in the client file system and be readable by the client application.
Oid lo_import_with_oid(PGconn *conn, const char *filename, Oid lobjId);
also imports a new large object. The OID to be assigned can be specified by lobjId
; if so, failure occurs if that OID is already in use for some large object. If lobjId
is InvalidOid
(zero) then lo_import_with_oid
assigns an unused OID (this is the same behavior as lo_import
). The return value is the OID that was assigned to the new large object, or InvalidOid
(zero) on failure.
lo_import_with_oid
is new as of PostgreSQL 8.4 and uses lo_create
internally which is new in 8.1; if this function is run against 8.0 or before, it will fail and return InvalidOid
.
34.3.3. Exporting a Large Object
To export a large object into an operating system file, call
int lo_export(PGconn *conn, Oid lobjId, const char *filename);
The lobjId
argument specifies the OID of the large object to export and the filename
argument specifies the operating system name of the file. Note that the file is written by the client interface library, not by the server. Returns 1 on success, -1 on failure.
34.3.4. Opening an Existing Large Object
To open an existing large object for reading or writing, call
int lo_open(PGconn *conn, Oid lobjId, int mode);
The lobjId
argument specifies the OID of the large object to open. The mode
bits control whether the object is opened for reading (INV_READ
), writing (INV_WRITE
), or both. (These symbolic constants are defined in the header file libpq/libpq-fs.h
.) lo_open
returns a (non-negative) large object descriptor for later use in lo_read
, lo_write
, lo_lseek
, lo_lseek64
, lo_tell
, lo_tell64
, lo_truncate
, lo_truncate64
, and lo_close
. The descriptor is only valid for the duration of the current transaction. On failure, -1 is returned.
The server currently does not distinguish between modes INV_WRITE
and INV_READ
|
INV_WRITE
: you are allowed to read from the descriptor in either case. However there is a significant difference between these modes and INV_READ
alone: with INV_READ
you cannot write on the descriptor, and the data read from it will reflect the contents of the large object at the time of the transaction snapshot that was active when lo_open
was executed, regardless of later writes by this or other transactions. Reading from a descriptor opened with INV_WRITE
returns data that reflects all writes of other committed transactions as well as writes of the current transaction. This is similar to the behavior of REPEATABLE READ
versus READ COMMITTED
transaction modes for ordinary SQL SELECT
commands.
lo_open
will fail if SELECT
privilege is not available for the large object, or if INV_WRITE
is specified and UPDATE
privilege is not available. (Prior to PostgreSQL 11, these privilege checks were instead performed at the first actual read or write call using the descriptor.) These privilege checks can be disabled with the lo_compat_privileges run-time parameter.
An example:
inv_fd = lo_open(conn, inv_oid, INV_READ|INV_WRITE);
34.3.5. Writing Data to a Large Object
int lo_write(PGconn *conn, int fd, const char *buf, size_t len);
writes len
bytes from buf
(which must be of size len
) to large object descriptor fd
. The fd
argument must have been returned by a previous lo_open
. The number of bytes actually written is returned (in the current implementation, this will always equal len
unless there is an error). In the event of an error, the return value is -1.
Although the len
parameter is declared as size_t
, this function will reject length values larger than INT_MAX
. In practice, it's best to transfer data in chunks of at most a few megabytes anyway.
34.3.6. Reading Data from a Large Object
int lo_read(PGconn *conn, int fd, char *buf, size_t len);
reads up to len
bytes from large object descriptor fd
into buf
(which must be of size len
). The fd
argument must have been returned by a previous lo_open
. The number of bytes actually read is returned; this will be less than len
if the end of the large object is reached first. In the event of an error, the return value is -1.
Although the len
parameter is declared as size_t
, this function will reject length values larger than INT_MAX
. In practice, it's best to transfer data in chunks of at most a few megabytes anyway.
34.3.7. Seeking in a Large Object
To change the current read or write location associated with a large object descriptor, call
int lo_lseek(PGconn *conn, int fd, int offset, int whence);
This function moves the current location pointer for the large object descriptor identified by fd
to the new location specified by offset
. The valid values for whence
are SEEK_SET
(seek from object start), SEEK_CUR
(seek from current position), and SEEK_END
(seek from object end). The return value is the new location pointer, or -1 on error.
When dealing with large objects that might exceed 2GB in size, instead use
pg_int64 lo_lseek64(PGconn *conn, int fd, pg_int64 offset, int whence);
This function has the same behavior as lo_lseek
, but it can accept an offset
larger than 2GB and/or deliver a result larger than 2GB. Note that lo_lseek
will fail if the new location pointer would be greater than 2GB.
lo_lseek64
is new as of PostgreSQL 9.3. If this function is run against an older server version, it will fail and return -1.
34.3.8. Obtaining the Seek Position of a Large Object
To obtain the current read or write location of a large object descriptor, call
int lo_tell(PGconn *conn, int fd);
If there is an error, the return value is -1.
When dealing with large objects that might exceed 2GB in size, instead use
pg_int64 lo_tell64(PGconn *conn, int fd);
This function has the same behavior as lo_tell
, but it can deliver a result larger than 2GB. Note that lo_tell
will fail if the current read/write location is greater than 2GB.
lo_tell64
is new as of PostgreSQL 9.3. If this function is run against an older server version, it will fail and return -1.
34.3.9. Truncating a Large Object
To truncate a large object to a given length, call
int lo_truncate(PGconn *conn, int fd, size_t len);
This function truncates the large object descriptor fd
to length len
. The fd
argument must have been returned by a previous lo_open
. If len
is greater than the large object's current length, the large object is extended to the specified length with null bytes ('\0'). On success, lo_truncate
returns zero. On error, the return value is -1.
The read/write location associated with the descriptor fd
is not changed.
Although the len
parameter is declared as size_t
, lo_truncate
will reject length values larger than INT_MAX
.
When dealing with large objects that might exceed 2GB in size, instead use
int lo_truncate64(PGconn *conn, int fd, pg_int64 len);
This function has the same behavior as lo_truncate
, but it can accept a len
value exceeding 2GB.
lo_truncate
is new as of PostgreSQL 8.3; if this function is run against an older server version, it will fail and return -1.
lo_truncate64
is new as of PostgreSQL 9.3; if this function is run against an older server version, it will fail and return -1.
34.3.10. Closing a Large Object Descriptor
A large object descriptor can be closed by calling
int lo_close(PGconn *conn, int fd);
where fd
is a large object descriptor returned by lo_open
. On success, lo_close
returns zero. On error, the return value is -1.
Any large object descriptors that remain open at the end of a transaction will be closed automatically.