Difference between revisions of "Category:LSL XML-RPC"

From Second Life Wiki
Jump to navigation Jump to search
m (→‎php: I've tried my best to make it readable and valid though I can't be sure of the later.)
m
Line 28: Line 28:
One language to create a webapplication in is PHP.
One language to create a webapplication in is PHP.
Here is an example of how to send a xmlrpc message to your SL-script from a webserver using PHP:
Here is an example of how to send a xmlrpc message to your SL-script from a webserver using PHP:
<php>
<php><?php
<?php
echo '<pre>';
echo '<pre>';
$channel = ""; //Fill in the channel you are using (key)
$channel = ""; //Fill in the channel you are using (key)
        $intvalue = "";
$intvalue = ""; //Fill in the intvalue you are using (integer)
        $strvalue = ""
$strvalue = ""; //Fill in the strvalue you are using (string)
$xmldata =
$xmldata = "<?xml version=\"1.0\"?><methodCall><methodName>llRemoteData</methodName>
        $my_string = "<?xml version=\"1.0\"?><methodCall><methodName>llRemoteData</methodName>
<params><param><value><struct>
<params><param><value><struct>
<member><name>Channel</name><value><string>".$channel."</string></value></member>
<member><name>Channel</name><value><string>".$channel."</string></value></member>
Line 76: Line 74:
return $buf;  
return $buf;  
}  
}  
?>
?></php>
</php>


=perl=
=perl=
Line 85: Line 82:
The perl code sends the message that contains the string "Message to pass" and the number "2007." The LSL code responds by sending the string "I got it" and the number "2008."
The perl code sends the message that contains the string "Message to pass" and the number "2007." The LSL code responds by sending the string "I got it" and the number "2008."


<pre>
<perl>#!/usr/bin/perl
&#35;!/usr/bin/perl
#  
&#35;


use RPC::XML;
use RPC::XML;
Line 99: Line 95:
my $req = RPC::XML::request->new(
my $req = RPC::XML::request->new(
         "llRemoteData",
         "llRemoteData",
         &#123;'Channel' => RPC::XML::string->new("UUID for the open channel from the object GOES HERE!"),
         {'Channel' => RPC::XML::string->new("UUID for the open channel from the object GOES HERE!"),
         'IntValue' => RPC::XML::int->new(2007),
         'IntValue' => RPC::XML::int->new(2007),
         'StringValue' => RPC::XML::string->new("message to pass")&#125;);
         'StringValue' => RPC::XML::string->new("message to pass")});


&#35; Print out the message to send
#  Print out the message to send
print "ref(req): ",ref($req),"\n";
print "ref(req): ",ref($req),"\n";
$xml = $req->as_string();
$xml = $req->as_string();
Line 110: Line 106:
$res = $P->parse($xml);
$res = $P->parse($xml);
print ref($res),"\n";
print ref($res),"\n";
if (ref($res)) &#123;
if (ref($res)) {
     %h = %{$res->args->[0]->value};
     %h = %{$res->args->[0]->value};
     foreach $lupe (keys %h) &#123;
     foreach $lupe (keys %h) {
       print "$lupe: $h{$lupe}\n";
       print "$lupe: $h{$lupe}\n";
     &#125;
     }
&#125;
}


&#35; Submit the request to send the information above.
#  Submit the request to send the information above.
my $resp = $cli->send_request($req);
my $resp = $cli->send_request($req);




&#35; Print out the response
#  Print out the response
print "\n\n\nResponse\n";
print "\n\n\nResponse\n";
print "ref(resp): ",ref($resp),"\n";
print "ref(resp): ",ref($resp),"\n";
Line 129: Line 125:
$res = $P->parse($xml);
$res = $P->parse($xml);
print ref($res),"\n";
print ref($res),"\n";
if (ref($res)) &#123;
if (ref($res)) {
     %h = %{$res->value};
     %h = %{$res->value};
     foreach $lupe (keys %h) &#123;
     foreach $lupe (keys %h) {
       $val =  $h{$lupe};
       $val =  $h{$lupe};
       print "$lupe: $val\n";
       print "$lupe: $val\n";
     &#125;
     }
&#125;
}</perl>
 
 
</pre>




Line 149: Line 142:
* Run the code with the command: java -classpath "cis69mc.jar;." SLClient  
* Run the code with the command: java -classpath "cis69mc.jar;." SLClient  


<pre>
<java>import java.util.*;
import java.util.*;
import org.apache.xmlrpc.*;
import org.apache.xmlrpc.*;


Line 171: Line 163:
   }
   }
   }
   }
}
}</java>
</pre>


=LSL Server Code=
=LSL Server Code=
Line 178: Line 169:
Corresponding LSL code (copy and paste this code as a script in an object, save and rezz it, a message with the channel id (and other stuff) will be printed):
Corresponding LSL code (copy and paste this code as a script in an object, save and rezz it, a message with the channel id (and other stuff) will be printed):


<lsl>
<lsl>key remoteChannel;
key remoteChannel;
init() {
init() {
     llOpenRemoteDataChannel(); // create an XML-RPC channel
     llOpenRemoteDataChannel(); // create an XML-RPC channel
Line 238: Line 228:
         }
         }
     }
     }
   
}</lsl>
}
 
</lsl>

Revision as of 13:34, 29 May 2008

XML-RPC is a standard for sending Procedure Calls (e.g. function calls) to Remote systems. It sends XML data over HTTP that remote system then handles.

LSL receives XML-RPC requests and passes them to the prim specified. It may not establish this connection, but it may reply and keep two-way communication with that server. These responses seem to be able to transport the largest amount of data out of Second Life (vs. Email and HTTP Requests).

IMPORTANT IMPLEMENTATION NOTE:

The current implementation of XML-RPC only allows ONE request to be queued on the front-end server (xmlrpc.secondlife.com) at a time. Any additional requests to the same data channel overwrite any pending one. This has serious ramifications for the design of XML-RPC communications where the in-world object could receive requests faster than it can respond to them. In addition, the 3-second delay in llRemoteDataReply exacerbates this problem even more.

The observed issue is this: if you send multiple quick requests to an in-world object via XML-RPC, one which is scripted to perform some processing and then return a response (via llRemoteDataReply), there is a potential for earlier requests to get lost on the front end server (they still should generate remote_data events, though), and have the response meant for an earlier request end up being passed back to a later one, while the earlier requests will time out back at your external application.

As a result, if you intend to do any serious work with XML-RPC, you will have to design your external client application to manually serialize all requests to each individual RPC channel. That means you have to wait for a response from the previous request before you attempt to send the next one. If you don't care about receiving responses, then this problem is not an issue, as all requests seem to get passed on to the script, regardless of the queueing issue.

Also note that there is NO way to get around the 3-second delay for llRemoteDataReply; you cannot use the multiple-slave-comm-script trick, because XML-RPC channels are *script-specific*, NOT *object-specific*.

For more information, see these forum threads here and here.

Other Resources

Example

php

To initialize a xmlrpc from an external server you'll need some kind of web-application. One language to create a webapplication in is PHP. Here is an example of how to send a xmlrpc message to your SL-script from a webserver using PHP: <php><?php

echo '

';
	$channel = ""; //Fill in the channel you are using (key)
	$intvalue = ""; //Fill in the intvalue you are using (integer)
	$strvalue = ""; //Fill in the strvalue you are using (string)
	$xmldata = "<?xml version=\"1.0\"?><methodCall><methodName>llRemoteData</methodName>
<params><param><value><struct>
<member><name>Channel</name><value><string>".$channel."</string></value></member>
<member><name>IntValue</name><value><int>".$intvalue."</int></value></member>
<member><name>StringValue</name><value><string>".$strvalue."</string></value></member>
</struct></value></param></params></methodCall>";
	echo sendToHost("xmlrpc.secondlife.com", "POST", "/cgi-bin/xmlrpc.cgi", $xmldata);
	echo '

';

function sendToHost($host,$method,$path,$data,$useragent=0) { $buf=""; // Supply a default method of GET if the one passed was empty if (empty($method)) $method = 'GET'; $method = strtoupper($method);

$fp = fsockopen($host, 80, $errno, $errstr, 30);

if( !$fp ) { $buf = "$errstr ($errno)
\n"; }else { if ($method == 'GET') $path .= '?' . $data; fputs($fp, "$method $path HTTP/1.1\r\n"); fputs($fp, "Host: $host\r\n"); fputs($fp, "Content-type: text/xml\r\n"); fputs($fp, "Content-length: " . strlen($data) . "\r\n"); if ($useragent) fputs($fp, "User-Agent: MSIE\r\n"); fputs($fp, "Connection: close\r\n\r\n"); if ($method == 'POST') fputs($fp, $data); while (!feof($fp)) $buf .= fgets($fp,128); fclose($fp); } return $buf; } ?></php>

perl

The perl code and corresponding LSL code to contact an object in Second Life is given below. The perl code makes use of the RPC::XML module. You can run the perl code from the command line. It creates an rpc object and sends a message to an object that is rezzed on the grid. Note that you have to supply the UUID of the object within the perl code.

The perl code sends the message that contains the string "Message to pass" and the number "2007." The LSL code responds by sending the string "I got it" and the number "2008."

<perl>#!/usr/bin/perl

use RPC::XML; use RPC::XML::Parser; use RPC::XML::Client;

my $llURL = "http://xmlrpc.secondlife.com/cgi-bin/xmlrpc.cgi"; $P = RPC::XML::Parser->new();

my $cli = RPC::XML::Client->new($llURL); my $req = RPC::XML::request->new(

       "llRemoteData",
       {'Channel' => RPC::XML::string->new("UUID for the open channel from the object GOES HERE!"),
       'IntValue' => RPC::XML::int->new(2007),
       'StringValue' => RPC::XML::string->new("message to pass")});
  1. Print out the message to send

print "ref(req): ",ref($req),"\n"; $xml = $req->as_string(); print "Length: ",$req->length,"\n\n",$xml,"\n\n";

$res = $P->parse($xml); print ref($res),"\n"; if (ref($res)) {

   %h = %{$res->args->[0]->value};
   foreach $lupe (keys %h) {
      print "$lupe: $h{$lupe}\n";
   }

}

  1. Submit the request to send the information above.

my $resp = $cli->send_request($req);


  1. Print out the response

print "\n\n\nResponse\n"; print "ref(resp): ",ref($resp),"\n"; $xml = $resp->as_string(); print "Length: ",$resp->length,"\n\n",$xml,"\n\n";

$res = $P->parse($xml); print ref($res),"\n"; if (ref($res)) {

   %h = %{$res->value};
   foreach $lupe (keys %h) {
      $val =  $h{$lupe};
      print "$lupe: $val\n";
   }

}</perl>


Java

This Java code uses the org.apache.xmlrpc library, a jar file for this can be found at http://www.perisic.com/xmlrpc/cis69mc.jar (the code has been tested with this). See http://perisic.com/xmlrpc for a simple introduction into Java & XMLRPC if necessary

  • Save the code in a file named SLClient.java and download the jar file cis69mc.jar from the location above.
  • Add the channel id where it says '<add channel id here!!!>', so this line may eventually look similar to theData.put("Channel", "24a2c834-c984-9209-78df-20608d4c8ade");
  • Compile the code with the command: javac -classpath "cis69mc.jar;." SLClient.jar (you may get a note about unchecked or unsafe operations, ignore that.
  • Run the code with the command: java -classpath "cis69mc.jar;." SLClient

<java>import java.util.*; import org.apache.xmlrpc.*;

public class SLClient {

public static void main (String [] args) {
 try {
  Hashtable theData = new Hashtable(); 
  XmlRpcClient server = new XmlRpcClient("http://xmlrpc.secondlife.com/cgi-bin/xmlrpc.cgi"); //
  theData.put("Channel", "<add channel id here!!!>"); 
  theData.put("IntValue", 2483); 
  theData.put("StringValue", "The date is: "+ (new Date()).toString() ); 
  Vector params = new Vector(); 
  params.add(theData); 
  
  Object result = server.execute("llRemoteData", params ); 
 
 } catch (Exception exception) {
  System.err.println("SL_Client: " + exception);
  exception.printStackTrace(); 
  }
 }

}</java>

LSL Server Code

Corresponding LSL code (copy and paste this code as a script in an object, save and rezz it, a message with the channel id (and other stuff) will be printed):

<lsl>key remoteChannel; init() {

   llOpenRemoteDataChannel(); // create an XML-RPC channel
   llOwnerSay("My key is " + (string)llGetKey());

}

default {

   state_entry() {
       init();
   }
   
   state_exit() {
       return;
   }
                               
   on_rez(integer param) {
       llResetScript();        
   }
                               
   remote_data(integer type, key channel, key message_id, string sender, integer ival, string sval) {
        if (type == REMOTE_DATA_CHANNEL) { // channel created
            llSay(DEBUG_CHANNEL,"Channel opened for REMOTE_DATA_CHANNEL" + 
               (string)channel + " " + (string)message_id + " " + (string)sender + " " +                         
               (string)ival + " " + (string)sval);
            remoteChannel = channel;
            llOwnerSay("Ready to receive requests on channel \"" + (string)channel + "\"");                        
            state receiving; // start handling requests
        } else {
            llSay(DEBUG_CHANNEL,"Unexpected event type"); 
        }                      
    }                 

}


state receiving {

   state_entry() {
       llOwnerSay("Ready to receive information from outside SL");
   }  
   
   state_exit() {
       llOwnerSay("No longer receiving information from outside SL.");
       llCloseRemoteDataChannel(remoteChannel);
   }
   
   on_rez(integer param) {
       llResetScript();
   }
   
   remote_data(integer type, key channel, key message_id, string sender, integer ival, string sval) {
       if (type == REMOTE_DATA_REQUEST) { // handle requests sent to us
            llSay(DEBUG_CHANNEL,"Request received for REMOTE_DATA_REQUEST " + (string)channel + " " +
               (string)message_id + " " + (string)sender + " " + (string)ival + " " + (string)sval);
           llRemoteDataReply(channel,NULL_KEY,"I got it",2008);
           llOwnerSay("I just received data in "+ llGetRegionName() + 
                       " at position " + (string)llGetPos() + "\n" +
                      "The string was " +  sval + "\nThe number was " + (string)ival + ".");
       }
   }

}</lsl>

Subcategories

This category has the following 2 subcategories, out of 2 total.