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.\" ========================================================================
.\"
.IX Title "xpanslookup 3"
.TH xpanslookup 3 "June 7, 2012" "version 2.1.14" "SAORD Documentation"
.SH "NAME"
\&\fBXPANSLookup: lookup registered XPA access points\fR
.SH "SYNOPSIS"
.IX Header "SYNOPSIS"
.Vb 1
\& #include
.Ve
.PP
.Vb 4
\& int XPANSLookup(XPA xpa,
\& char *template, char type,
\& char ***classes, char ***names,
\& char ***methods, char ***infos)
.Ve
.SH "DESCRIPTION"
.IX Header "DESCRIPTION"
\&\s-1XPA\s0 routines act on a class:name identifier in such a way
that all access points that match the identifier are processed. It is
sometimes desirable to choose specific access points from the
candidates that match the
template. In order to do this, the
XPANSLookup routine can be called to return a list of matches, so that
specific class:name instances can then be fed to \fIXPAGet()\fR, \fIXPASet()\fR, etc.
.PP
.Vb 4
\& The first argument is an optional XPA struct. If non-NULL, the
\&existing name server connection associated with the specified xpa is
\&used to query the xpans name server for matching templates. Otherwise,
\&a new (temporary) connection is established with the name server.
.Ve
.PP
The second argument to XPANSLookup is the class:name
template
to match.
.PP
The third argument for \fIXPANSLookup()\fR is the type of access and can be
any combination of:
.PP
.Vb 5
\& type explanation
\& ------ -----------
\& g xpaget calls can be made on this access point
\& s xpaset calls can be made on this access point
\& i xpainfo calls can be made on this access point
.Ve
.PP
The call typically specifies only one of these at a time.
.PP
The final arguments are pointers to arrays that will be filled
in and returned by the name server. The name server will allocate and
return arrays filled with the classes, names, and methods of all \s-1XPA\s0
access points that match the template
and have the specified type. Also returned are info strings, which
generally are used internally by the client routines. These can be
ignored (but the strings must be freed). The function returns the
number of matches. The returned value can be used to loop through the
matches:
.PP
\&\fBExample:\fR
.PP
.Vb 1
\& #include
.Ve
.PP
.Vb 22
\& char **classes;
\& char **names;
\& char **methods;
\& char **infos;
\& int i, n;
\& n = XPANSLookup(NULL, "foo*", "g", &classes, &names, &methods, &infos);
\& for(i=0; i \& [more specific checks on possibilities ...]
\& [perhaps a call to XPAGet for those that pass, etc. ...]
\& /* don't forget to free alloc'ed strings when done */
\& free(classes[i]);
\& free(names[i]);
\& free(methods[i]);
\& free(infos[i]);
\& }
\& /* free up arrays alloc'ed by names server */
\& if( n > 0 ){
\& free(classes);
\& free(names);
\& free(methods);
\& free(infos);
\& }
.Ve
.PP
The specified
template
also can be a host:port specification, for example:
.PP
.Vb 1
\& myhost:12345
.Ve
.PP
In this case, no connection is made to the name server. Instead, the
call will return one entry such that the ip array contains the ip for
the specified host and the port array contains the port. The class
and name entries are set to the character \*(L"?\*(R", since the class and
name of the access point are not known.
.SH "SEE ALSO"
.IX Header "SEE ALSO"
See xpa(n) for a list of \s-1XPA\s0 help pages