Once a connection to a database server has been successfully established, the functions described here are used to perform SQL queries and commands.
PQexec
#Submits a command to the server and waits for the result.
PGresult *PQexec(PGconn *conn, const char *command);
Returns a PGresult
pointer or possibly a null pointer. A non-null pointer will generally be returned except in out-of-memory conditions or serious errors such as inability to send the command to the server. The PQresultStatus
function should be called to check the return value for any errors (including the value of a null pointer, in which case it will return PGRES_FATAL_ERROR
). Use PQerrorMessage
to get more information about such errors.
The command string can include multiple SQL commands (separated by semicolons). Multiple queries sent in a single PQexec
call are processed in a single transaction, unless there are explicit BEGIN
/COMMIT
commands included in the query string to divide it into multiple transactions. (See Section 53.2.2.1 for more details about how the server handles multi-query strings.) Note however that the returned PGresult
structure describes only the result of the last command executed from the string. Should one of the commands fail, processing of the string stops with it and the returned PGresult
describes the error condition.
PQexecParams
#Submits a command to the server and waits for the result, with the ability to pass parameters separately from the SQL command text.
PGresult *PQexecParams(PGconn *conn, const char *command, int nParams, const Oid *paramTypes, const char * const *paramValues, const int *paramLengths, const int *paramFormats, int resultFormat);
PQexecParams
is like PQexec
, but offers additional functionality: parameter values can be specified separately from the command string proper, and query results can be requested in either text or binary format.
The function arguments are:
conn
The connection object to send the command through.
command
The SQL command string to be executed. If parameters are used, they are referred to in the command string as $1
, $2
, etc.
nParams
The number of parameters supplied; it is the length of the arrays paramTypes[]
, paramValues[]
, paramLengths[]
, and paramFormats[]
. (The array pointers can be NULL
when nParams
is zero.)
paramTypes[]
Specifies, by OID, the data types to be assigned to the parameter symbols. If paramTypes
is NULL
, or any particular element in the array is zero, the server infers a data type for the parameter symbol in the same way it would do for an untyped literal string.
paramValues[]
Specifies the actual values of the parameters. A null pointer in this array means the corresponding parameter is null; otherwise the pointer points to a zero-terminated text string (for text format) or binary data in the format expected by the server (for binary format).
paramLengths[]
Specifies the actual data lengths of binary-format parameters. It is ignored for null parameters and text-format parameters. The array pointer can be null when there are no binary parameters.
paramFormats[]
Specifies whether parameters are text (put a zero in the array entry for the corresponding parameter) or binary (put a one in the array entry for the corresponding parameter). If the array pointer is null then all parameters are presumed to be text strings.
Values passed in binary format require knowledge of the internal representation expected by the backend. For example, integers must be passed in network byte order. Passing numeric
values requires knowledge of the server storage format, as implemented in src/backend/utils/adt/numeric.c::numeric_send()
and src/backend/utils/adt/numeric.c::numeric_recv()
.
resultFormat
Specify zero to obtain results in text format, or one to obtain results in binary format. (There is not currently a provision to obtain different result columns in different formats, although that is possible in the underlying protocol.)
The primary advantage of PQexecParams
over PQexec
is that parameter values can be separated from the command string, thus avoiding the need for tedious and error-prone quoting and escaping.
Unlike PQexec
, PQexecParams
allows at most one SQL command in the given string. (There can be semicolons in it, but not more than one nonempty command.) This is a limitation of the underlying protocol, but has some usefulness as an extra defense against SQL-injection attacks.
Specifying parameter types via OIDs is tedious, particularly if you prefer not to hard-wire particular OID values into your program. However, you can avoid doing so even in cases where the server by itself cannot determine the type of the parameter, or chooses a different type than you want. In the SQL command text, attach an explicit cast to the parameter symbol to show what data type you will send. For example:
SELECT * FROM mytable WHERE x = $1::bigint;
This forces parameter $1
to be treated as bigint
, whereas by default it would be assigned the same type as x
. Forcing the parameter type decision, either this way or by specifying a numeric type OID, is strongly recommended when sending parameter values in binary format, because binary format has less redundancy than text format and so there is less chance that the server will detect a type mismatch mistake for you.
PQprepare
#Submits a request to create a prepared statement with the given parameters, and waits for completion.
PGresult *PQprepare(PGconn *conn, const char *stmtName, const char *query, int nParams, const Oid *paramTypes);
PQprepare
creates a prepared statement for later execution with PQexecPrepared
. This feature allows commands to be executed repeatedly without being parsed and planned each time; see PREPARE for details.
The function creates a prepared statement named stmtName
from the query
string, which must contain a single SQL command. stmtName
can be ""
to create an unnamed statement, in which case any pre-existing unnamed statement is automatically replaced; otherwise it is an error if the statement name is already defined in the current session. If any parameters are used, they are referred to in the query as $1
, $2
, etc. nParams
is the number of parameters for which types are pre-specified in the array paramTypes[]
. (The array pointer can be NULL
when nParams
is zero.) paramTypes[]
specifies, by OID, the data types to be assigned to the parameter symbols. If paramTypes
is NULL
, or any particular element in the array is zero, the server assigns a data type to the parameter symbol in the same way it would do for an untyped literal string. Also, the query can use parameter symbols with numbers higher than nParams
; data types will be inferred for these symbols as well. (See PQdescribePrepared
for a means to find out what data types were inferred.)
As with PQexec
, the result is normally a PGresult
object whose contents indicate server-side success or failure. A null result indicates out-of-memory or inability to send the command at all. Use PQerrorMessage
to get more information about such errors.
Prepared statements for use with PQexecPrepared
can also be created by executing SQL PREPARE statements.
PQexecPrepared
#Sends a request to execute a prepared statement with given parameters, and waits for the result.
PGresult *PQexecPrepared(PGconn *conn, const char *stmtName, int nParams, const char * const *paramValues, const int *paramLengths, const int *paramFormats, int resultFormat);
PQexecPrepared
is like PQexecParams
, but the command to be executed is specified by naming a previously-prepared statement, instead of giving a query string. This feature allows commands that will be used repeatedly to be parsed and planned just once, rather than each time they are executed. The statement must have been prepared previously in the current session.
The parameters are identical to PQexecParams
, except that the name of a prepared statement is given instead of a query string, and the paramTypes[]
parameter is not present (it is not needed since the prepared statement's parameter types were determined when it was created).
PQdescribePrepared
#Submits a request to obtain information about the specified prepared statement, and waits for completion.
PGresult *PQdescribePrepared(PGconn *conn, const char *stmtName);
PQdescribePrepared
allows an application to obtain information about a previously prepared statement.
stmtName
can be ""
or NULL
to reference the unnamed statement, otherwise it must be the name of an existing prepared statement. On success, a PGresult
with status PGRES_COMMAND_OK
is returned. The functions PQnparams
and PQparamtype
can be applied to this PGresult
to obtain information about the parameters of the prepared statement, and the functions PQnfields
, PQfname
, PQftype
, etc. provide information about the result columns (if any) of the statement.
PQdescribePortal
#Submits a request to obtain information about the specified portal, and waits for completion.
PGresult *PQdescribePortal(PGconn *conn, const char *portalName);
PQdescribePortal
allows an application to obtain information about a previously created portal. (libpq does not provide any direct access to portals, but you can use this function to inspect the properties of a cursor created with a DECLARE CURSOR
SQL command.)
portalName
can be ""
or NULL
to reference the unnamed portal, otherwise it must be the name of an existing portal. On success, a PGresult
with status PGRES_COMMAND_OK
is returned. The functions PQnfields
, PQfname
, PQftype
, etc. can be applied to the PGresult
to obtain information about the result columns (if any) of the portal.
PQclosePrepared
#Submits a request to close the specified prepared statement, and waits for completion.
PGresult *PQclosePrepared(PGconn *conn, const char *stmtName);
PQclosePrepared
allows an application to close a previously prepared statement. Closing a statement releases all of its associated resources on the server and allows its name to be reused.
stmtName
can be ""
or NULL
to reference the unnamed statement. It is fine if no statement exists with this name, in that case the operation is a no-op. On success, a PGresult
with status PGRES_COMMAND_OK
is returned.
PQclosePortal
#Submits a request to close the specified portal, and waits for completion.
PGresult *PQclosePortal(PGconn *conn, const char *portalName);
PQclosePortal
allows an application to trigger a close of a previously created portal. Closing a portal releases all of its associated resources on the server and allows its name to be reused. (libpq does not provide any direct access to portals, but you can use this function to close a cursor created with a DECLARE CURSOR
SQL command.)
portalName
can be ""
or NULL
to reference the unnamed portal. It is fine if no portal exists with this name, in that case the operation is a no-op. On success, a PGresult
with status PGRES_COMMAND_OK
is returned.
The PGresult
structure encapsulates the result returned by the server. libpq application programmers should be careful to maintain the PGresult
abstraction. Use the accessor functions below to get at the contents of PGresult
. Avoid directly referencing the fields of the PGresult
structure because they are subject to change in the future.
PQresultStatus
#Returns the result status of the command.
ExecStatusType PQresultStatus(const PGresult *res);
PQresultStatus
can return one of the following values:
PGRES_EMPTY_QUERY
#The string sent to the server was empty.
PGRES_COMMAND_OK
#Successful completion of a command returning no data.
PGRES_TUPLES_OK
#Successful completion of a command returning data (such as a SELECT
or SHOW
).
PGRES_COPY_OUT
#Copy Out (from server) data transfer started.
PGRES_COPY_IN
#Copy In (to server) data transfer started.
PGRES_BAD_RESPONSE
#The server's response was not understood.
PGRES_NONFATAL_ERROR
#A nonfatal error (a notice or warning) occurred.
PGRES_FATAL_ERROR
#A fatal error occurred.
PGRES_COPY_BOTH
#Copy In/Out (to and from server) data transfer started. This feature is currently used only for streaming replication, so this status should not occur in ordinary applications.
PGRES_SINGLE_TUPLE
#The PGresult
contains a single result tuple from the current command. This status occurs only when single-row mode has been selected for the query (see Section 32.6).
PGRES_TUPLES_CHUNK
#The PGresult
contains several result tuples from the current command. This status occurs only when chunked mode has been selected for the query (see Section 32.6). The number of tuples will not exceed the limit passed to PQsetChunkedRowsMode
.
PGRES_PIPELINE_SYNC
#The PGresult
represents a synchronization point in pipeline mode, requested by either PQpipelineSync
or PQsendPipelineSync
. This status occurs only when pipeline mode has been selected.
PGRES_PIPELINE_ABORTED
#The PGresult
represents a pipeline that has received an error from the server. PQgetResult
must be called repeatedly, and each time it will return this status code until the end of the current pipeline, at which point it will return PGRES_PIPELINE_SYNC
and normal processing can resume.
If the result status is PGRES_TUPLES_OK
, PGRES_SINGLE_TUPLE
, or PGRES_TUPLES_CHUNK
, then the functions described below can be used to retrieve the rows returned by the query. Note that a SELECT
command that happens to retrieve zero rows still shows PGRES_TUPLES_OK
. PGRES_COMMAND_OK
is for commands that can never return rows (INSERT
or UPDATE
without a RETURNING
clause, etc.). A response of PGRES_EMPTY_QUERY
might indicate a bug in the client software.
A result of status PGRES_NONFATAL_ERROR
will never be returned directly by PQexec
or other query execution functions; results of this kind are instead passed to the notice processor (see Section 32.13).
PQresStatus
#Converts the enumerated type returned by PQresultStatus
into a string constant describing the status code. The caller should not free the result.
char *PQresStatus(ExecStatusType status);
PQresultErrorMessage
#Returns the error message associated with the command, or an empty string if there was no error.
char *PQresultErrorMessage(const PGresult *res);
If there was an error, the returned string will include a trailing newline. The caller should not free the result directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
Immediately following a PQexec
or PQgetResult
call, PQerrorMessage
(on the connection) will return the same string as PQresultErrorMessage
(on the result). However, a PGresult
will retain its error message until destroyed, whereas the connection's error message will change when subsequent operations are done. Use PQresultErrorMessage
when you want to know the status associated with a particular PGresult
; use PQerrorMessage
when you want to know the status from the latest operation on the connection.
PQresultVerboseErrorMessage
#Returns a reformatted version of the error message associated with a PGresult
object.
char *PQresultVerboseErrorMessage(const PGresult *res, PGVerbosity verbosity, PGContextVisibility show_context);
In some situations a client might wish to obtain a more detailed version of a previously-reported error. PQresultVerboseErrorMessage
addresses this need by computing the message that would have been produced by PQresultErrorMessage
if the specified verbosity settings had been in effect for the connection when the given PGresult
was generated. If the PGresult
is not an error result, “PGresult is not an error result” is reported instead. The returned string includes a trailing newline.
Unlike most other functions for extracting data from a PGresult
, the result of this function is a freshly allocated string. The caller must free it using PQfreemem()
when the string is no longer needed.
A NULL return is possible if there is insufficient memory.
PQresultErrorField
#Returns an individual field of an error report.
char *PQresultErrorField(const PGresult *res, int fieldcode);
fieldcode
is an error field identifier; see the symbols listed below. NULL
is returned if the PGresult
is not an error or warning result, or does not include the specified field. Field values will normally not include a trailing newline. The caller should not free the result directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
The following field codes are available:
PG_DIAG_SEVERITY
#The severity; the field contents are ERROR
, FATAL
, or PANIC
(in an error message), or WARNING
, NOTICE
, DEBUG
, INFO
, or LOG
(in a notice message), or a localized translation of one of these. Always present.
PG_DIAG_SEVERITY_NONLOCALIZED
#The severity; the field contents are ERROR
, FATAL
, or PANIC
(in an error message), or WARNING
, NOTICE
, DEBUG
, INFO
, or LOG
(in a notice message). This is identical to the PG_DIAG_SEVERITY
field except that the contents are never localized. This is present only in reports generated by PostgreSQL versions 9.6 and later.
PG_DIAG_SQLSTATE
#The SQLSTATE code for the error. The SQLSTATE code identifies the type of error that has occurred; it can be used by front-end applications to perform specific operations (such as error handling) in response to a particular database error. For a list of the possible SQLSTATE codes, see Appendix A. This field is not localizable, and is always present.
PG_DIAG_MESSAGE_PRIMARY
#The primary human-readable error message (typically one line). Always present.
PG_DIAG_MESSAGE_DETAIL
#Detail: an optional secondary error message carrying more detail about the problem. Might run to multiple lines.
PG_DIAG_MESSAGE_HINT
#Hint: an optional suggestion what to do about the problem. This is intended to differ from detail in that it offers advice (potentially inappropriate) rather than hard facts. Might run to multiple lines.
PG_DIAG_STATEMENT_POSITION
#A string containing a decimal integer indicating an error cursor position as an index into the original statement string. The first character has index 1, and positions are measured in characters not bytes.
PG_DIAG_INTERNAL_POSITION
#This is defined the same as the PG_DIAG_STATEMENT_POSITION
field, but it is used when the cursor position refers to an internally generated command rather than the one submitted by the client. The PG_DIAG_INTERNAL_QUERY
field will always appear when this field appears.
PG_DIAG_INTERNAL_QUERY
#The text of a failed internally-generated command. This could be, for example, an SQL query issued by a PL/pgSQL function.
PG_DIAG_CONTEXT
#An indication of the context in which the error occurred. Presently this includes a call stack traceback of active procedural language functions and internally-generated queries. The trace is one entry per line, most recent first.
PG_DIAG_SCHEMA_NAME
#If the error was associated with a specific database object, the name of the schema containing that object, if any.
PG_DIAG_TABLE_NAME
#If the error was associated with a specific table, the name of the table. (Refer to the schema name field for the name of the table's schema.)
PG_DIAG_COLUMN_NAME
#If the error was associated with a specific table column, the name of the column. (Refer to the schema and table name fields to identify the table.)
PG_DIAG_DATATYPE_NAME
#If the error was associated with a specific data type, the name of the data type. (Refer to the schema name field for the name of the data type's schema.)
PG_DIAG_CONSTRAINT_NAME
#If the error was associated with a specific constraint, the name of the constraint. Refer to fields listed above for the associated table or domain. (For this purpose, indexes are treated as constraints, even if they weren't created with constraint syntax.)
PG_DIAG_SOURCE_FILE
#The file name of the source-code location where the error was reported.
PG_DIAG_SOURCE_LINE
#The line number of the source-code location where the error was reported.
PG_DIAG_SOURCE_FUNCTION
#The name of the source-code function reporting the error.
The fields for schema name, table name, column name, data type name, and constraint name are supplied only for a limited number of error types; see Appendix A. Do not assume that the presence of any of these fields guarantees the presence of another field. Core error sources observe the interrelationships noted above, but user-defined functions may use these fields in other ways. In the same vein, do not assume that these fields denote contemporary objects in the current database.
The client is responsible for formatting displayed information to meet its needs; in particular it should break long lines as needed. Newline characters appearing in the error message fields should be treated as paragraph breaks, not line breaks.
Errors generated internally by libpq will have severity and primary message, but typically no other fields.
Note that error fields are only available from PGresult
objects, not PGconn
objects; there is no PQerrorField
function.
PQclear
#Frees the storage associated with a PGresult
. Every command result should be freed via PQclear
when it is no longer needed.
void PQclear(PGresult *res);
If the argument is a NULL
pointer, no operation is performed.
You can keep a PGresult
object around for as long as you need it; it does not go away when you issue a new command, nor even if you close the connection. To get rid of it, you must call PQclear
. Failure to do this will result in memory leaks in your application.
These functions are used to extract information from a PGresult
object that represents a successful query result (that is, one that has status PGRES_TUPLES_OK
, PGRES_SINGLE_TUPLE
, or PGRES_TUPLES_CHUNK
). They can also be used to extract information from a successful Describe operation: a Describe's result has all the same column information that actual execution of the query would provide, but it has zero rows. For objects with other status values, these functions will act as though the result has zero rows and zero columns.
PQntuples
#Returns the number of rows (tuples) in the query result. (Note that PGresult
objects are limited to no more than INT_MAX
rows, so an int
result is sufficient.)
int PQntuples(const PGresult *res);
PQnfields
#Returns the number of columns (fields) in each row of the query result.
int PQnfields(const PGresult *res);
PQfname
#Returns the column name associated with the given column number. Column numbers start at 0. The caller should not free the result directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
char *PQfname(const PGresult *res, int column_number);
NULL
is returned if the column number is out of range.
PQfnumber
#Returns the column number associated with the given column name.
int PQfnumber(const PGresult *res, const char *column_name);
-1 is returned if the given name does not match any column.
The given name is treated like an identifier in an SQL command, that is, it is downcased unless double-quoted. For example, given a query result generated from the SQL command:
SELECT 1 AS FOO, 2 AS "BAR";
we would have the results:
PQfname(res, 0) foo PQfname(res, 1) BAR PQfnumber(res, "FOO") 0 PQfnumber(res, "foo") 0 PQfnumber(res, "BAR") -1 PQfnumber(res, "\"BAR\"") 1
PQftable
#Returns the OID of the table from which the given column was fetched. Column numbers start at 0.
Oid PQftable(const PGresult *res, int column_number);
InvalidOid
is returned if the column number is out of range, or if the specified column is not a simple reference to a table column. You can query the system table pg_class
to determine exactly which table is referenced.
The type Oid
and the constant InvalidOid
will be defined when you include the libpq header file. They will both be some integer type.
PQftablecol
#Returns the column number (within its table) of the column making up the specified query result column. Query-result column numbers start at 0, but table columns have nonzero numbers.
int PQftablecol(const PGresult *res, int column_number);
Zero is returned if the column number is out of range, or if the specified column is not a simple reference to a table column.
PQfformat
#Returns the format code indicating the format of the given column. Column numbers start at 0.
int PQfformat(const PGresult *res, int column_number);
Format code zero indicates textual data representation, while format code one indicates binary representation. (Other codes are reserved for future definition.)
PQftype
#Returns the data type associated with the given column number. The integer returned is the internal OID number of the type. Column numbers start at 0.
Oid PQftype(const PGresult *res, int column_number);
You can query the system table pg_type
to obtain the names and properties of the various data types. The OIDs of the built-in data types are defined in the file catalog/pg_type_d.h
in the PostgreSQL installation's include
directory.
PQfmod
#Returns the type modifier of the column associated with the given column number. Column numbers start at 0.
int PQfmod(const PGresult *res, int column_number);
The interpretation of modifier values is type-specific; they typically indicate precision or size limits. The value -1 is used to indicate “no information available”. Most data types do not use modifiers, in which case the value is always -1.
PQfsize
#Returns the size in bytes of the column associated with the given column number. Column numbers start at 0.
int PQfsize(const PGresult *res, int column_number);
PQfsize
returns the space allocated for this column in a database row, in other words the size of the server's internal representation of the data type. (Accordingly, it is not really very useful to clients.) A negative value indicates the data type is variable-length.
PQbinaryTuples
#Returns 1 if the PGresult
contains binary data and 0 if it contains text data.
int PQbinaryTuples(const PGresult *res);
This function is deprecated (except for its use in connection with COPY
), because it is possible for a single PGresult
to contain text data in some columns and binary data in others. PQfformat
is preferred. PQbinaryTuples
returns 1 only if all columns of the result are binary (format 1).
PQgetvalue
#Returns a single field value of one row of a PGresult
. Row and column numbers start at 0. The caller should not free the result directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
char *PQgetvalue(const PGresult *res, int row_number, int column_number);
For data in text format, the value returned by PQgetvalue
is a null-terminated character string representation of the field value. For data in binary format, the value is in the binary representation determined by the data type's typsend
and typreceive
functions. (The value is actually followed by a zero byte in this case too, but that is not ordinarily useful, since the value is likely to contain embedded nulls.)
An empty string is returned if the field value is null. See PQgetisnull
to distinguish null values from empty-string values.
The pointer returned by PQgetvalue
points to storage that is part of the PGresult
structure. One should not modify the data it points to, and one must explicitly copy the data into other storage if it is to be used past the lifetime of the PGresult
structure itself.
PQgetisnull
#Tests a field for a null value. Row and column numbers start at 0.
int PQgetisnull(const PGresult *res, int row_number, int column_number);
This function returns 1 if the field is null and 0 if it contains a non-null value. (Note that PQgetvalue
will return an empty string, not a null pointer, for a null field.)
PQgetlength
#Returns the actual length of a field value in bytes. Row and column numbers start at 0.
int PQgetlength(const PGresult *res, int row_number, int column_number);
This is the actual data length for the particular data value, that is, the size of the object pointed to by PQgetvalue
. For text data format this is the same as strlen()
. For binary format this is essential information. Note that one should not rely on PQfsize
to obtain the actual data length.
PQnparams
#Returns the number of parameters of a prepared statement.
int PQnparams(const PGresult *res);
This function is only useful when inspecting the result of PQdescribePrepared
. For other types of results it will return zero.
PQparamtype
#Returns the data type of the indicated statement parameter. Parameter numbers start at 0.
Oid PQparamtype(const PGresult *res, int param_number);
This function is only useful when inspecting the result of PQdescribePrepared
. For other types of results it will return zero.
PQprint
#Prints out all the rows and, optionally, the column names to the specified output stream.
void PQprint(FILE *fout, /* output stream */ const PGresult *res, const PQprintOpt *po); typedef struct { pqbool header; /* print output field headings and row count */ pqbool align; /* fill align the fields */ pqbool standard; /* old brain dead format */ pqbool html3; /* output HTML tables */ pqbool expanded; /* expand tables */ pqbool pager; /* use pager for output if needed */ char *fieldSep; /* field separator */ char *tableOpt; /* attributes for HTML table element */ char *caption; /* HTML table caption */ char **fieldName; /* null-terminated array of replacement field names */ } PQprintOpt;
This function was formerly used by psql to print query results, but this is no longer the case. Note that it assumes all the data is in text format.
These functions are used to extract other information from PGresult
objects.
PQcmdStatus
#Returns the command status tag from the SQL command that generated the PGresult
.
char *PQcmdStatus(PGresult *res);
Commonly this is just the name of the command, but it might include additional data such as the number of rows processed. The caller should not free the result directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
PQcmdTuples
#Returns the number of rows affected by the SQL command.
char *PQcmdTuples(PGresult *res);
This function returns a string containing the number of rows affected by the SQL statement that generated the PGresult
. This function can only be used following the execution of a SELECT
, CREATE TABLE AS
, INSERT
, UPDATE
, DELETE
, MERGE
, MOVE
, FETCH
, or COPY
statement, or an EXECUTE
of a prepared query that contains an INSERT
, UPDATE
, DELETE
, or MERGE
statement. If the command that generated the PGresult
was anything else, PQcmdTuples
returns an empty string. The caller should not free the return value directly. It will be freed when the associated PGresult
handle is passed to PQclear
.
PQoidValue
#Returns the OID of the inserted row, if the SQL command was an INSERT
that inserted exactly one row into a table that has OIDs, or a EXECUTE
of a prepared query containing a suitable INSERT
statement. Otherwise, this function returns InvalidOid
. This function will also return InvalidOid
if the table affected by the INSERT
statement does not contain OIDs.
Oid PQoidValue(const PGresult *res);
PQoidStatus
#This function is deprecated in favor of PQoidValue
and is not thread-safe. It returns a string with the OID of the inserted row, while PQoidValue
returns the OID value.
char *PQoidStatus(const PGresult *res);
PQescapeLiteral
#char *PQescapeLiteral(PGconn *conn, const char *str, size_t length);
PQescapeLiteral
escapes a string for use within an SQL command. This is useful when inserting data values as literal constants in SQL commands. Certain characters (such as quotes and backslashes) must be escaped to prevent them from being interpreted specially by the SQL parser. PQescapeLiteral
performs this operation.
PQescapeLiteral
returns an escaped version of the str
parameter in memory allocated with malloc()
. This memory should be freed using PQfreemem()
when the result is no longer needed. A terminating zero byte is not required, and should not be counted in length
. (If a terminating zero byte is found before length
bytes are processed, PQescapeLiteral
stops at the zero; the behavior is thus rather like strncpy
.) The return string has all special characters replaced so that they can be properly processed by the PostgreSQL string literal parser. A terminating zero byte is also added. The single quotes that must surround PostgreSQL string literals are included in the result string.
On error, PQescapeLiteral
returns NULL
and a suitable message is stored in the conn
object.
It is especially important to do proper escaping when handling strings that were received from an untrustworthy source. Otherwise there is a security risk: you are vulnerable to “SQL injection” attacks wherein unwanted SQL commands are fed to your database.
Note that it is neither necessary nor correct to do escaping when a data value is passed as a separate parameter in PQexecParams
or its sibling routines.
PQescapeIdentifier
#char *PQescapeIdentifier(PGconn *conn, const char *str, size_t length);
PQescapeIdentifier
escapes a string for use as an SQL identifier, such as a table, column, or function name. This is useful when a user-supplied identifier might contain special characters that would otherwise not be interpreted as part of the identifier by the SQL parser, or when the identifier might contain upper case characters whose case should be preserved.
PQescapeIdentifier
returns a version of the str
parameter escaped as an SQL identifier in memory allocated with malloc()
. This memory must be freed using PQfreemem()
when the result is no longer needed. A terminating zero byte is not required, and should not be counted in length
. (If a terminating zero byte is found before length
bytes are processed, PQescapeIdentifier
stops at the zero; the behavior is thus rather like strncpy
.) The return string has all special characters replaced so that it will be properly processed as an SQL identifier. A terminating zero byte is also added. The return string will also be surrounded by double quotes.
On error, PQescapeIdentifier
returns NULL
and a suitable message is stored in the conn
object.
As with string literals, to prevent SQL injection attacks, SQL identifiers must be escaped when they are received from an untrustworthy source.
PQescapeStringConn
#size_t PQescapeStringConn(PGconn *conn, char *to, const char *from, size_t length, int *error);
PQescapeStringConn
escapes string literals, much like PQescapeLiteral
. Unlike PQescapeLiteral
, the caller is responsible for providing an appropriately sized buffer. Furthermore, PQescapeStringConn
does not generate the single quotes that must surround PostgreSQL string literals; they should be provided in the SQL command that the result is inserted into. The parameter from
points to the first character of the string that is to be escaped, and the length
parameter gives the number of bytes in this string. A terminating zero byte is not required, and should not be counted in length
. (If a terminating zero byte is found before length
bytes are processed, PQescapeStringConn
stops at the zero; the behavior is thus rather like strncpy
.) to
shall point to a buffer that is able to hold at least one more byte than twice the value of length
, otherwise the behavior is undefined. Behavior is likewise undefined if the to
and from
strings overlap.
If the error
parameter is not NULL
, then *error
is set to zero on success, nonzero on error. Presently the only possible error conditions involve invalid multibyte encoding in the source string. The output string is still generated on error, but it can be expected that the server will reject it as malformed. On error, a suitable message is stored in the conn
object, whether or not error
is NULL
.
PQescapeStringConn
returns the number of bytes written to to
, not including the terminating zero byte.
PQescapeString
#PQescapeString
is an older, deprecated version of PQescapeStringConn
.
size_t PQescapeString (char *to, const char *from, size_t length);
The only difference from PQescapeStringConn
is that PQescapeString
does not take PGconn
or error
parameters. Because of this, it cannot adjust its behavior depending on the connection properties (such as character encoding) and therefore it might give the wrong results. Also, it has no way to report error conditions.
PQescapeString
can be used safely in client programs that work with only one PostgreSQL connection at a time (in this case it can find out what it needs to know “behind the scenes”). In other contexts it is a security hazard and should be avoided in favor of PQescapeStringConn
.
PQescapeByteaConn
#Escapes binary data for use within an SQL command with the type bytea
. As with PQescapeStringConn
, this is only used when inserting data directly into an SQL command string.
unsigned char *PQescapeByteaConn(PGconn *conn, const unsigned char *from, size_t from_length, size_t *to_length);
Certain byte values must be escaped when used as part of a bytea
literal in an SQL statement. PQescapeByteaConn
escapes bytes using either hex encoding or backslash escaping. See Section 8.4 for more information.
The from
parameter points to the first byte of the string that is to be escaped, and the from_length
parameter gives the number of bytes in this binary string. (A terminating zero byte is neither necessary nor counted.) The to_length
parameter points to a variable that will hold the resultant escaped string length. This result string length includes the terminating zero byte of the result.
PQescapeByteaConn
returns an escaped version of the from
parameter binary string in memory allocated with malloc()
. This memory should be freed using PQfreemem()
when the result is no longer needed. The return string has all special characters replaced so that they can be properly processed by the PostgreSQL string literal parser, and the bytea
input function. A terminating zero byte is also added. The single quotes that must surround PostgreSQL string literals are not part of the result string.
On error, a null pointer is returned, and a suitable error message is stored in the conn
object. Currently, the only possible error is insufficient memory for the result string.
PQescapeBytea
#PQescapeBytea
is an older, deprecated version of PQescapeByteaConn
.
unsigned char *PQescapeBytea(const unsigned char *from, size_t from_length, size_t *to_length);
The only difference from PQescapeByteaConn
is that PQescapeBytea
does not take a PGconn
parameter. Because of this, PQescapeBytea
can only be used safely in client programs that use a single PostgreSQL connection at a time (in this case it can find out what it needs to know “behind the scenes”). It might give the wrong results if used in programs that use multiple database connections (use PQescapeByteaConn
in such cases).
PQunescapeBytea
#Converts a string representation of binary data into binary data — the reverse of PQescapeBytea
. This is needed when retrieving bytea
data in text format, but not when retrieving it in binary format.
unsigned char *PQunescapeBytea(const unsigned char *from, size_t *to_length);
The from
parameter points to a string such as might be returned by PQgetvalue
when applied to a bytea
column. PQunescapeBytea
converts this string representation into its binary representation. It returns a pointer to a buffer allocated with malloc()
, or NULL
on error, and puts the size of the buffer in to_length
. The result must be freed using PQfreemem
when it is no longer needed.
This conversion is not exactly the inverse of PQescapeBytea
, because the string is not expected to be “escaped” when received from PQgetvalue
. In particular this means there is no need for string quoting considerations, and so no need for a PGconn
parameter.
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