The format of the name of each generated XML encode function is as follows:
[<namespace>]XmlEnc_[<prefix>]<prodName>
where <namespace>
is an optional C namespace
prefix, <prodName>
is the name of the ASN.1
production for which the function is being generated and
<prefix>
is an optional prefix that can be
set via a configuration file setting. The configuration setting used
to set the prefix is the <typePrefix> element. This element
specifies a prefix that will be applied to all generated typedef
names and function names for the production. <namespace> is
set using the ASN1C -namespace
command-line argument. Note that this should not be confused with
the notion of an XML namespace.
The calling sequence for each encode function is as follows:
status = <ns>XmlEnc_<name> (OSCTXT* pctxt, <name>[*] value, const OSUTF8CHAR* elemName, const OSUTF8CHAR* nsPrefix);
In this definition, <ns> is short for <namespace> and <name> denotes the prefixed production name defined above.
The pctxt
argument is used to hold a context pointer
to keep track of encode parameters. This is a basic "handle"
variable that is used to make the function reentrant so it can be
used in an asynchronous or threaded application. The user is
required to supply a pointer to a variable of this type declared
somewhere in his or her program.
The value
argument contains the value to be encoded
or holds a pointer to the value to be encoded. This variable is of
the type generated from the ASN.1 production. The object is passed
by value if it is a primitive ASN.1 data type such as BOOLEAN,
INTEGER, ENUMERATED, etc.. It is passed using a pointer reference if
it is a structured ASN.1 type value (in this case, the name will be
pvalue instead of value). Check the generated function prototype in
the header file to determine how this argument is to be passed for a
given function.
The elemName and nsPrefix arguments are used to pass the XML element name and namespace prefix respectively. The two arguments are combined to form a qualified name (QName) of the form <nsPrefix:elemName>. If elemName is null or empty, then no element tag is added to the encoded content. If nsPrefix is null or empty, the element name is applied as a local name only without a prefix.
The function result variable stat
returns the status
of the encode operation. Status code zero indicates the function was
successful. A negative value indicates encoding failed. Return
status values are defined in the rtxErrCodes.h include file. The error text and a
stack trace can be displayed using the rtxErrPrint function.
In addition to the XML encode function generated for types, a different type of encode function is generated for Protocol Data Units (PDU’s). These are types in an ASN.1 specification that are not referenced by any other types. In an XML schema specification, these are global elements that are not reference within any other types or global elements.
The format of the a PDU encode function is the same name format as above with the suffix _PDU. This function does not contain the elemName and nsPrefix arguments - these are built into the function as defined in the schema. For this reason, calling PDU functions is usually more convenient than calling the equivalent function for the referenced type.