5.10 EXTERNAL FUNCTION
Note
External functions (UDFs) have been aggressively deprecated in Firebird 4.0:
The default setting for the configuration parameter
UdfAccess
isNone
. In order to run UDFs at all will now require an explicit configuration ofRestrict *path-list*
The UDF libraries (
ib_udf
,fbudf
) are no longer distributed in the installation kitsMost of the functions in the libraries previously distributed in the shared (dynamic) libraries
ib_udf
andfbudf
had already been replaced with built-in functional analogs. A few remaining UDFs have been replaced with either analog routines in a new library of UDRs namedudf_compat
or converted to stored functions.Refer to Deprecation of External Functions (UDFs) in the Compatibility chapter of the Firebird 4.0 Release notes for details and instructions about upgrading to use the safe functions.
Replacement of UDFs with UDRs or stored functions is strongly recommended
External functions, also known as User-Defined Functions (UDFs) are programs written in an external programming language and stored in dynamically loaded libraries. Once declared in a database, they become available in dynamic and procedural statements as though they were implemented in the SQL language.
External functions extend the possibilities for processing data with SQL considerably. To make a function available to a database, it is declared using the statement DECLARE EXTERNAL FUNCTION
.
The library containing a function is loaded when any function included in it is called.
Note
External functions declared as DECLARE EXTERNAL FUNCTION
are a legacy from previous versions of Firebird. Their capabilities are inferior to the capabilities of the new type of external functions, UDR (User-Defined Routine). Such functions are declared as CREATE FUNCTION … EXTERNAL …
. See CREATE FUNCTION for details.
Note
External functions may be contained in more than one library — or module, as it is referred to in the syntax.
Caution
UDFs are fundamentally insecure. We recommend avoiding their use whenever possible, and disabling UDFs in your database configuration (UdfAccess = None
in firebird.conf
; this is the default since Firebird 4). If you do need to call native code from your database, use a UDR external engine instead.
See alsoFUNCTION
5.10.1 DECLARE EXTERNAL FUNCTION
Used forDeclaring a user-defined function (UDF) to the database
Available inDSQL, ESQL
Syntax
DECLARE EXTERNAL FUNCTION funcname
[{ <arg_desc_list> | ( <arg_desc_list> ) }]
RETURNS { <return_value> | ( <return_value> ) }
ENTRY_POINT 'entry_point' MODULE_NAME 'library_name'
<arg_desc_list> ::=
<arg_type_decl> [, <arg_type_decl> ...]
<arg_type_decl> ::=
<udf_data_type> [BY {DESCRIPTOR | SCALAR_ARRAY} | NULL]
<udf_data_type> ::=
<scalar_datatype>
| BLOB
| CSTRING(length) [ CHARACTER SET charset ]
<scalar_datatype> ::=
!! See Scalar Data Types Syntax !!
<return_value> ::=
{ <udf_data_type> | PARAMETER param_num }
[{ BY VALUE | BY DESCRIPTOR [FREE_IT] | FREE_IT }]
Table 5.10.1.1 DECLARE EXTERNAL FUNCTION
Statement Parameters
Parameter | Description |
---|---|
funcname | Function name in the database. The maximum length is 63 characters. It should be unique among all internal and external function names in the database and need not be the same name as the name exported from the UDF library via |
entry_point | The exported name of the function |
library_name | The name of the module ( |
length | The maximum length of a null-terminated string, specified in bytes |
charset | Character set of the CSTRING |
param_num | The number of the input parameter, numbered from 1 in the list of input parameters in the declaration, describing the data type that will be returned by the function |
The DECLARE EXTERNAL FUNCTION
statement makes a user-defined function available in the database. UDF declarations must be made in each database that is going to use them. There is no need to declare UDFs that will never be used.
The name of the external function must be unique among all function names. It may be different from the exported name of the function, as specified in the ENTRY_POINT
argument.
5.10.1.1 DECLARE EXTERNAL FUNCTION
Input Parameters
The input parameters of the function follow the name of the function and are separated with commas. Each parameter has an SQL data type specified for it. Arrays cannot be used as function parameters. In addition to the SQL types, the CSTRING
type is available for specifying a null-terminated string with a maximum length of LENGTH
bytes. There are several mechanisms for passing a parameter from the Firebird engine to an external function, each of these mechanisms will be discussed below.
By default, input parameters are passed by reference. There is no separate clause to explicitly indicate that parameters are passed by reference.
When passing a NULL
value by reference, it is converted to the equivalent of zero, for example, a number 0
or an empty string (''
). If the keyword NULL
is specified after a parameter, then with passing a NULL
values, the null pointer will be passed to the external function.
Note
Declaring a function with the NULL
keyword does not guarantee that the function will correctly handle a NULL
input parameter. Any function must be written or rewritten to correctly handle NULL
values. Always use the function declaration as provided by its developer.
If BY DESCRIPTOR
is specified, then the input parameter is passed by descriptor. In this case, the UDF parameter will receive a pointer to an internal structure known as a descriptor. The descriptor contains information about the data type, sub-type, precision, character set and collation, scale, a pointer to the data itself and some flags, including the NULL
indicator. This declaration only works if the external function is written using a handle.
Warning
When passing a function parameter by descriptor, the passed value is not cast to the declared data type.
The BY SCALAR_ARRAY
clause is used when passing arrays as input parameters. Unlike other types, you cannot return an array from a UDF.
5.10.1.1.1 Clauses and Keywords
RETURNS
clause
(Required) specifies the output parameter returned by the function. A function is scalar, it returns one value (output parameter). The output parameter can be of any SQL type (except an array or an array element) or a null-terminated string (CSTRING
). The output parameter can be passed by reference (the default), by descriptor or by value. If the BY DESCRIPTOR
clause is specified, the output parameter is passed by descriptor. If the BY VALUE
clause is specified, the output parameter is passed by value.
PARAMETER
keyword
specifies that the function returns the value from the parameter under number param_num. It is necessary if you need to return a value of data type BLOB
.
FREE_IT
keyword
means that the memory allocated for storing the return value will be freed after the function is executed. It is used only if the memory was allocated dynamically in the UDF. In such a UDF, the memory must be allocated with the help of the ib_util_malloc
function from the ib_util
module, a requirement for compatibility with the functions used in Firebird code and in the code of the shipped UDF modules, for allocating and freeing memory.
ENTRY_POINT
clause
specifies the name of the entry point (the name of the imported function), as exported from the module.
MODULE_NAME
clause
defines the name of the module where the exported function is located. The link to the module should not be the full path and extension of the file, if that can be avoided. If the module is located in the default location (in the ../UDF
subdirectory of the Firebird server root) or in a location explicitly configured in firebird.conf
, it makes it easier to move the database between different platforms. The UDFAccess
parameter in the firebird.conf file allows access restrictions to external functions modules to be configured.
Any user connected to the database can declare an external function (UDF).
5.10.1.2 Who Can Create an External Function
The DECLARE EXTERNAL FUNCTION
statement can be executed by:
Users with the
CREATE FUNCTION
privilege
The user who created the function becomes its owner.
5.10.1.3 Examples using DECLARE EXTERNAL FUNCTION
Declaring the
addDay
external function located in thefbudf
module. The input and output parameters are passed by reference.DECLARE EXTERNAL FUNCTION addDay
TIMESTAMP, INT
RETURNS TIMESTAMP
ENTRY_POINT 'addDay' MODULE_NAME 'fbudf';
Declaring the
invl
external function located in thefbudf
module. The input and output parameters are passed by descriptor.DECLARE EXTERNAL FUNCTION invl
INT BY DESCRIPTOR, INT BY DESCRIPTOR
RETURNS INT BY DESCRIPTOR
ENTRY_POINT 'idNvl' MODULE_NAME 'fbudf';
Declaring the
isLeapYear
external function located in thefbudf
module. The input parameter is passed by reference, while the output parameter is passed by value.DECLARE EXTERNAL FUNCTION isLeapYear
TIMESTAMP
RETURNS INT BY VALUE
ENTRY_POINT 'isLeapYear' MODULE_NAME 'fbudf';
Declaring the
i64Truncate
external function located in thefbudf
module. The input and output parameters are passed by descriptor. The second parameter of the function is used as the return value.DECLARE EXTERNAL FUNCTION i64Truncate
NUMERIC(18) BY DESCRIPTOR, NUMERIC(18) BY DESCRIPTOR
RETURNS PARAMETER 2
ENTRY_POINT 'fbtruncate' MODULE_NAME 'fbudf';
See alsoSection 5.10.2, ALTER EXTERNAL FUNCTION, Section 5.10.3, DROP EXTERNAL FUNCTION, CREATE FUNCTION
5.10.2 ALTER EXTERNAL FUNCTION
Used forChanging the entry point and/or the module name for a user-defined function (UDF)
Available inDSQL
Syntax
ALTER EXTERNAL FUNCTION funcname
[ENTRY_POINT 'new_entry_point']
[MODULE_NAME 'new_library_name']
Table 5.10.2.1 ALTER EXTERNAL FUNCTION
Statement Parameters
Parameter | Description |
---|---|
funcname | Function name in the database |
new_entry_point | The new exported name of the function |
new_library_name | The new name of the module ( |
The ALTER EXTERNAL FUNCTION
statement changes the entry point and/or the module name for a user-defined function (UDF). Existing dependencies remain intact after the statement containing the change(s) is executed.
The ENTRY_POINT
clause
is for specifying the new entry point (the name of the function as exported from the module).
The MODULE_NAME
clause
is for specifying the new name of the module where the exported function is located.
Any user connected to the database can change the entry point and the module name.
5.10.2.1 Who Can Alter an External Function
The ALTER EXTERNAL FUNCTION
statement can be executed by:
Owner of the external function
Users with the
ALTER ANY FUNCTION
privilege
5.10.2.2 Examples using ALTER EXTERNAL FUNCTION
Changing the entry point for an external function
ALTER EXTERNAL FUNCTION invl ENTRY_POINT 'intNvl';
Changing the module name for an external function
ALTER EXTERNAL FUNCTION invl MODULE_NAME 'fbudf2';
See alsoSection 5.10.1, DECLARE EXTERNAL FUNCTION, Section 5.10.3, DROP EXTERNAL FUNCTION
5.10.3 DROP EXTERNAL FUNCTION
Used forRemoving a user-defined function (UDF) from a database
Available inDSQL, ESQL
Syntax
DROP EXTERNAL FUNCTION funcname
Table 5.10.3.1 DROP EXTERNAL FUNCTION
Statement Parameter
Parameter | Description |
---|---|
funcname | Function name in the database |
The DROP EXTERNAL FUNCTION
statement deletes the declaration of a user-defined function from the database. If there are any dependencies on the external function, the statement will fail and the appropriate error will be raised.
Any user connected to the database can delete the declaration of an internal function.
5.10.3.1 Who Can Drop an External Function
The DROP EXTERNAL FUNCTION
statement can be executed by:
Owner of the external function
Users with the
DROP ANY FUNCTION
privilege
5.10.3.2 Example using DROP EXTERNAL FUNCTION
Deleting the declaration of the addDay function.
DROP EXTERNAL FUNCTION addDay;