Difference between revisions of "User:Kireji Haiku/SIMchat headset"

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[[File:SIMchat_Headset.jpg|thumb|700px|center|This is what it could look like. There's no particle system in the script, I just added it to see better in the picture.]]
[[File:SIMchat_Headset.jpg|thumb|700px|center|This is what it could look like. There's no particle system in the script, I just added it for demonstration purposes.]]


[[File:SIMchat_Headset_grey.jpg|thumb|700px|center|Yellow marker shows the main prim, red marker shows the invisible childprim containing the script.]]
[[File:SIMchat_Headset_grey.jpg|thumb|700px|center|Yellow marker shows the root prim (parent), red marker shows the invisible linked prim (child) containing the script.]]





Revision as of 05:14, 20 December 2011

Check out all my other projects!


SIMchat headset

General information:

If you want to use it, you should drop it into a childprim of a linkset. This setup will give you the possibilty to forward your chat on a certain channel within the whole region your are in and encrypt it. Just make sure anybody you want to talk to has the same variables as you do.


This is what it could look like. There's no particle system in the script, I just added it for demonstration purposes.
Yellow marker shows the root prim (parent), red marker shows the invisible linked prim (child) containing the script.


Go to top!

Script:

<lsl>

/*

  • This script includes the XTEA-LSL-Implementation by:
  • - Morse Dillon
  • - Strife Onizuka
  • - Dedric Mauriac
  • - JB Kraft
  • http://wiki.secondlife.com/wiki/XTEA_Strong_Encryption_Implementation
  • Setup:
  • 1. Make sure the object in which you want to use this script has more than one prim.
  • 2. Make sure the object is modifiable by you.
  • 3. This script must go into a childprim of your object, it doesn't matter into which one.
  • 4. After you have copied the script into your object, make sure everyone you want to talk to has the same
  • settings for KEY1, KEY2, KEY3, KEY4 and COMM_CHANNEL. You can use any valid, positive (!) integer number
  • for COMM_CHANNEL excluding PUBLIC_CHANNEL (which is 0) and DEBUG_CHANNEL (which is 2147483647). Do not use
  • a negative channel!
  • 5. When chatting, please type in local chat and add your channel. Example: If your COMM_CHANNEL was 9 then you'd type: "/9 hello"
  • 6. The code is written for an avatar attachment (usually a headset / HUD) and will run in no-script areas.
  • /

integer KEY1 = 11111111; integer KEY2 = 22222222; integer KEY3 = 33333333; integer KEY4 = 44444444;

integer COMM_CHANNEL = 9;

/*

  • If you're not sure what you're doing,
  • do NOT change anything below!
  • /

key ownerKey; string ownerName;

integer CYCLES = 6;

list cypherkey = []; integer delta = 0x9E3779B9;

integer ord(string chr) {

   string ASCII = "             \n                    !\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~";
   if(llStringLength(chr) != 1)
       return -1;
   if(chr == " ")
       return 32;
   return llSubStringIndex(ASCII, chr);

}

string chr(integer i) {

   string ASCII = "             \n                    !\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~";
   i %= 127;
   return llGetSubString(ASCII, i, i);

}

string DWord2Hex(integer m) {

   string result;
   integer i = 0;
   integer index = 0;
   string characters = "0123456789ABCDEF";   
   for (i = 0; i < 8; i++)
   {
       index  = (m >> (i * 4)) & 0xF;
       result = llInsertString(result, 0, llGetSubString(characters,index,index));
   }
   return result;

}

integer Hex2DWord(string m) {

   integer result = 0;
   integer i = 0;
   string digit;
   integer value;
   integer index;
   string characters = "0123456789ABCDEF";
   for (i = 0; i < 8; i++)
   {
        index = 8 - (i + 1);
       digit = llGetSubString(m,index,index);
       value = llSubStringIndex(characters, digit);
       result = result | value << (i * 4);
   }
   return result;

}

string Encrypt(string cleartext) {

       integer dword1 = 0;
       integer dword2 = 0;
       integer cyphertext_numeric;
       list cypherblock;
       string cyphertext = "";
       while(llStringLength(cleartext) & 0x7)
           cleartext += " ";
       integer stringlength = llStringLength(cleartext); 
       integer i=0;
       integer character;
       while (i < stringlength)
       {
           dword1 =  ord(llGetSubString(cleartext,i,i));
           i++;
           dword1 =  dword1 | (ord(llGetSubString(cleartext,i,i)) << 8);
           i++;
           dword1 =  dword1 | (ord(llGetSubString(cleartext,i,i)) << 16);
           i++;
           dword1 =  dword1 | (ord(llGetSubString(cleartext,i,i)) << 24);
           i++;
           dword2 =  ord(llGetSubString(cleartext,i,i));
           i++;
           dword2 =  dword2 | ord(llGetSubString(cleartext,i,i)) << 8;
           i++;
           dword2 =  dword2 | ord(llGetSubString(cleartext,i,i)) << 16;
           i++;
           dword2 =  dword2 | ord(llGetSubString(cleartext,i,i)) << 24;
           i++;
           cypherblock = TEAEncrypt(dword1,dword2,cypherkey);
           cyphertext = cyphertext + DWord2Hex(llList2Integer(cypherblock,0)) + DWord2Hex(llList2Integer(cypherblock,1));
           dword1 = 0;
           dword2 = 0;
           cypherblock = [];
        }
       return cyphertext;        

}

string Decrypt(string cyphertext) {

       string hexvalue1 = "";
       string hexvalue2 = "";
       integer dword1 = 0;
       integer dword2 = 0;
       list clearblock = [];
       string cleartext = "";
       integer i;
       while (i < llStringLength(cyphertext))
       {
           hexvalue1 += llGetSubString(cyphertext,i,i + 7);
           i = i + 8;
           hexvalue2 += llGetSubString(cyphertext,i,i + 7);
           i = i + 8;
           dword1 = Hex2DWord(hexvalue1);
           dword2 = Hex2DWord(hexvalue2); 
           clearblock = TEADecrypt(dword1, dword2, cypherkey);
           cleartext += chr( llList2Integer(clearblock,0) & 0x000000FF);
           cleartext += chr( (llList2Integer(clearblock,0) & 0x0000FF00)  >> 8);
           cleartext += chr( (llList2Integer(clearblock,0) & 0x00FF0000)  >> 16);
           cleartext += chr( (llList2Integer(clearblock,0) & 0xFF000000)  >> 24);
           cleartext += chr( llList2Integer(clearblock,1) & 0x000000FF);
           cleartext += chr( (llList2Integer(clearblock,1) & 0x0000FF00)  >> 8);
           cleartext += chr( (llList2Integer(clearblock,1) & 0x00FF0000)  >> 16);
           cleartext += chr( (llList2Integer(clearblock,1) & 0xFF000000)  >> 24);
           hexvalue1 = "";
           hexvalue2 = "";
           dword1 = 0;
           dword2 = 0;
           clearblock = [];
        }
       return cleartext;        

}

list TEAEncrypt(integer dword1, integer dword2,list cypherkey) {

           list cryptlist = [];
           integer n = CYCLES;
           integer sum = 0;
           while (n-- > 0)
           {
               dword1 = dword1 + ( ( dword2 << 4 ^ ((dword2 >> 5) & 0x07FFFFFF) ) + dword2 ^ sum + llList2Integer(cypherkey, (sum & 3) ) );
               sum += delta;
               dword2 = dword2 + ( ( dword1 << 4 ^ ((dword1 >> 5) & 0x07FFFFFF) ) + dword1 ^ sum + llList2Integer(cypherkey, ((sum >> 11) & 3) ) );
           }
           cryptlist = [dword1,dword2];
           return cryptlist;

}

list TEADecrypt(integer dword1, integer dword2,list cypherkey) {

           list cryptlist = [];
           integer n = CYCLES;
           integer sum = delta * CYCLES;
           while (n-- > 0)
           {
               dword2 = dword2 - ( ( dword1 << 4 ^ ((dword1 >> 5) & 0x07FFFFFF) ) + dword1 ^ sum + llList2Integer(cypherkey, ((sum >> 11) & 3) ) );
               sum -= delta;
               dword1 = dword1 - ( ( dword2 << 4 ^ ((dword2 >> 5) & 0x07FFFFFF) ) + dword2 ^ sum + llList2Integer(cypherkey, (sum & 3) ) );        
           }
           cryptlist = [dword1,dword2];
           return cryptlist;

}

default {

   on_rez(integer start_param)
   {
       if (llGetOwner() != ownerKey)
       {
           llReleaseControls();
           llResetScript();
       }
   }
   changed(integer change)
   {
       if (change & CHANGED_OWNER)
       {
           llReleaseControls();
           llResetScript();
       }
   }
   state_entry()
   {
       ownerKey = llGetOwner();
       ownerName = llKey2Name(ownerKey);
       cypherkey = [KEY1,KEY2,KEY3,KEY4];
       llSetLinkPrimitiveParamsFast(LINK_THIS, [
           PRIM_NAME, ownerName,
           PRIM_DESC, "Last reset: " + llGetTimestamp()]);
       llRequestPermissions(ownerKey, PERMISSION_TAKE_CONTROLS);
       llListen(COMM_CHANNEL, "", NULL_KEY, "");
   }
   listen(integer channel, string name, key id, string message)
   {
       if (channel != COMM_CHANNEL)
           return;
       if (id == ownerKey)
       {
           llRegionSay(COMM_CHANNEL, Encrypt(message));
           llSetLinkPrimitiveParamsFast(LINK_THIS, [PRIM_NAME, ""]);
           llOwnerSay("/me [" + ownerName + "]: '" + message + "'");
           llSetLinkPrimitiveParamsFast(LINK_THIS, [PRIM_NAME, ownerName]);
       }
       else if (llGetAgentSize(id) == ZERO_VECTOR)
       {
           message = Decrypt(message);
           llSetLinkPrimitiveParamsFast(LINK_THIS, [PRIM_NAME, ""]);
           llOwnerSay("/me [" + name + "]: '" + message + "'");
           llSetLinkPrimitiveParamsFast(LINK_THIS, [PRIM_NAME, ownerName]);
       }
   }
   run_time_permissions(integer perm)
   {
       if (perm & PERMISSION_TAKE_CONTROLS)
           llTakeControls(CONTROL_DOWN, TRUE, TRUE);
   }
   control(key id, integer level, integer edge)
   {
       ;
   }

} </lsl> Go to top!