PQexec function is adequate
for submitting commands in simple synchronous applications. It
has a couple of major deficiencies however:
PQexec waits for the command
to be completed. The application may have other work to do
(such as maintaining a user interface), in which case it
won't want to block waiting for the response.
Since control is buried inside
PQexec, it is hard for the frontend to
decide it would like to try to cancel the ongoing command.
(It can be done from a signal handler, but not
PQexec can return only one
PGresult structure. If the
submitted command string contains multiple SQL commands, all but the last PGresult are discarded by
Applications that do not like these limitations can instead
use the underlying functions that
PQexec is built from:
Older programs that used this functionality as well as
PQputnbytes could block waiting to send data to
the backend. To address that issue, the function
PQsetnonblocking was added.
Old applications can neglect to use
PQsetnonblocking and get the older potentially
blocking behavior. Newer programs can use
PQsetnonblocking to achieve a completely
nonblocking connection to the backend.
PQsetnonblocking Sets the
nonblocking status of the connection.
int PQsetnonblocking(PGconn *conn, int arg)
Sets the state of the connection to nonblocking if
arg is 1, blocking if
arg is 0. Returns 0 if OK, -1
In the nonblocking state, calls to
PQendcopy will not block but instead return
an error if they need to be called again.
When a database connection has been set to nonblocking
PQexec is called, it
will temporarily set the state of the connection to blocking
More of libpq is expected
to be made safe for
PQsetnonblocking functionality in the near
PQisnonblocking Returns the
blocking status of the database connection.
int PQisnonblocking(const PGconn *conn)
Returns 1 if the connection is set to nonblocking mode, 0 if blocking.
PQsendQuery Submit a command
to the server without waiting for the result(s). 1 is
returned if the command was successfully dispatched, 0 if not
(in which case, use
PQerrorMessage to get more information
about the failure).
int PQsendQuery(PGconn *conn, const char *query);
After successfully calling
PQgetResult one or more times to obtain the
PQsendQuery may not be
called again (on the same connection) until
PQgetResult has returned NULL, indicating
that the command is done.
PQgetResult Wait for the
next result from a prior
PQsendQuery, and return it. NULL is
returned when the query is complete and there will be no more
PGresult *PQgetResult(PGconn *conn);
PQgetResult must be called
repeatedly until it returns NULL, indicating that the command
is done. (If called when no command is active,
PQgetResult will just return NULL at once.)
Each non-NULL result from
PQgetResult should be processed using the
same PGresult accessor functions
previously described. Don't forget to free each result object
PQclear when done with it.
block only if a query is active and the necessary response
data has not yet been read by
PQgetResult solves one of
PQexec's problems: If a command
string contains multiple SQL
commands, the results of those commands can be obtained
individually. (This allows a simple form of overlapped
processing, by the way: the frontend can be handling the results
of one query while the backend is still working on later queries
in the same command string.) However, calling
PQgetResult will still cause the frontend to
block until the backend completes the next SQL command. This can be avoided by proper
use of three more functions:
PQconsumeInput If input is
available from the backend, consume it.
int PQconsumeInput(PGconn *conn);
returns 1 indicating "no error",
but returns 0 if there was some kind of trouble (in which
PQerrorMessage is set).
Note that the result does not say whether any input data was
actually collected. After calling
PQconsumeInput, the application may check
PQnotifies to see if their state has
PQconsumeInput may be called
even if the application is not prepared to deal with a result
or notification just yet. The routine will read available
data and save it in a buffer, thereby causing a
select() read-ready indication to go away.
The application can thus use
PQconsumeInput to clear the
select() condition immediately, and then
examine the results at leisure.
PQisBusy Returns 1 if a
query is busy, that is,
PQgetResult would block waiting for input.
A 0 return indicates that
PQgetResult can be called with assurance of
int PQisBusy(PGconn *conn);
PQisBusy will not itself
attempt to read data from the backend; therefore
PQconsumeInput must be invoked first, or
the busy state will never end.
PQflush Attempt to flush any
data queued to the backend, returns 0 if successful (or if
the send queue is empty) or EOF if it
failed for some reason.
int PQflush(PGconn *conn);
PQflush needs to be called
on a nonblocking connection before calling
select() to determine if a response has
arrived. If 0 is returned it ensures that there is no data
queued to the backend that has not actually been sent. Only
applications that have used
PQsetnonblocking have a need for this.
PQsocket Obtain the file
descriptor number for the backend connection socket. A valid
descriptor will be >= 0; a result of -1 indicates that no
backend connection is currently open.
int PQsocket(const PGconn *conn);
PQsocket should be used to
obtain the backend socket descriptor in preparation for
select(). This allows
an application using a blocking connection to wait for either
backend responses or other conditions. If the result of
select() indicates that data
can be read from the backend socket, then
PQconsumeInput should be called to read the
data; after which,
PQnotifies can be used to
process the response.
Nonblocking connections (that have used
PQsetnonblocking) should not use
PQflush has returned 0 indicating that
there is no buffered data waiting to be sent to the
A typical frontend using these functions will have a main loop
select to wait for all
the conditions that it must respond to. One of the conditions
will be input available from the backend, which in
select's terms is readable data on the file
descriptor identified by
When the main loop detects input ready, it should call
PQconsumeInput to read the input.
It can then call
PQisBusy returns false (0). It can also call
PQnotifies to detect NOTIFY
messages (see Section 1.6).
A frontend that uses
PQgetResult can also attempt to cancel a
command that is still being processed by the backend.
PQrequestCancel Request that
processing of the current command.
int PQrequestCancel(PGconn *conn);
The return value is 1 if the cancel request was
successfully dispatched, 0 if not. (If not,
PQerrorMessage tells why not.) Successful
dispatch is no guarantee that the request will have any
effect, however. Regardless of the return value of
application must continue with the normal result-reading
the cancellation is effective, the current command will
terminate early and return an error result. If the
cancellation fails (say, because the backend was already done
processing the command), then there will be no visible result
Note that if the current command is part of a transaction, cancellation will abort the whole transaction.
PQrequestCancel can safely be
invoked from a signal handler. So, it is also possible to use it
in conjunction with plain
if the decision to cancel can be made in a signal handler. For
example, psql invokes
PQrequestCancel from a SIGINT signal handler, thus allowing
interactive cancellation of queries that it issues through
PQexec. Note that
PQrequestCancel will have no effect if the
connection is not currently open or the backend is not currently
processing a command.