LSL Protocol/Restrained Love Relay/Other Implementations/DEM Relay HUD
DEM Relay HUD
OK, so this page is massively out of date - I'm starting to fix it
((current release of the Relay HUD is 200f))
The DEM Relay HUD is an implementation of a multi-object, multi-restriction relay for the Restrained Love viewer (RLV) in Second Life™. In addition to providing the interface between in-world furniture/toys, it implements some extensions to the RLV specs that allow for identification of WHO is operating a device trying to access the Relay and functions to provide vision restrictions without another attachment/hud. Note that these vision restrictions are becoming less necessary as RLVa, at least, has added new functionality (particularly the @setoverlay capability). The HUD implements some, but not all, of the features of the Open Relay Group. These extensions and scripts are released under the following license:
The Relay HUD is released under a modified "CopyLeft" license. The short form without legalese.
This code is provided AS-IS, OPEN-SOURCE and holds NO WARRANTY of accuracy, completeness or performance. It may be distributed in its full source code with this header and disclaimer and is not to be sold without permission. Optionally it may be distributed in a 'no mod' form within Second Life™ PROVIDED that either a link to the source IS provided (ie. this page or a .zip or .rar) within the object the code is contained AND/OR a off-world contact point (ie. email) that the source code may be requested from. This somewhat unusual (no-mod) distribution is allowed to maintain the integrity and reliability of the creator reference of in-world objects (scripts). Changes and improvement to this code must be shared with the community so that we ALL benefit.
Once based on Maike Short's 1030b relay, with thanks to Tahni Tarantal, RL Ansome, Nihal Quan and everyone else who helped with the shakedown and development of this device. Transitive thanks to everyone that has gone before on the development of the Restrained Life Relay, including (but not limited to) Felis Darwin, Nano Siemens, Azoth Amat, Gregor Mougin, Cerdita Piek, Satomi Ahn, Marissa Mistwallow, Chorazin Allen, and Marine Kelley.
The relay has changed a lot since it started as Maike's 1030b. Indeed it might now have changed beyond all recognition; it's been torn apart and rebuilt multiple times - there are still functions that look like the original, but they are few and far between. So don't blame Maike for any issues.
Major and mega thanks to Maike Short for her (all too brief) guidance and inspiration as keeper of the Relay Standards. We all wish you were still here, we won't forget you, ever. I really owe Maike and, also Satomi, a huge debt for everything, the original relay as well as suggestions for extensions.
A note about the script; I do all of my scripting using lslForge which has an import function which make it easy to share constants and commonly used functions. I've tried to minimize use of such functions, but I do use a couple of scripts that are not provided here as they contain script elements that I prefer not to share. The only one that really needs a replacement is the one that performs all the menu functions. There is liberal use of constants that are easily replaced with any set of unique numbers.
These are the pre-processed files; the post-processed ones are not something you want to see.
In-world (no mod) copies of this relay may be picked up for free at DEM Store🖈 or email to Chloe1982.Constantine@gmail.com for source.
Design Points
THIS PART IS MASSIVELY OUT OF DATE We went into the design of the tkPBA with the intention of making it as flexible as possible in its handling of multiple objects. Originally we looked at the single script concept but quickly discarded this as being rather unwieldy and subject to the whims of LSL to its use of memory. With the all in one design, you can't reliably check on memory utilization, excessive garbage collection with list management and other quirks of LSL. It also left the script more vulnerable to the unexpected stack/heap overflow if you didn't put a limit to the number of devices it would control. Therefore, we split the relay into three parts -
- - the DPU (Dominant Processing Unit) handling all the 'global' tasks of the relay (listens, mode (off/ask/auto/hardcore), and implementation of the !who and !vision commands.
- - the SPU (Slave Processing Unit) handling 'object specific' tasks (what object and it's restrictions are in place).
- - the GPU (Graphics Processing Unit)) the 'bare metal' interface for the !vision command.
With the advent of llSetLinkPrimitiveParamsFast we no longer needed the GPU to be in the actual GPU prim; for reasons of efficiency (and so that I no longer had to keep flipping the PBA to edit the back of it) we've merged the GPU and DPU scripts.
Further, we took the actual architecture of the relay down to the 'prim' level. Since we have made this a HUD ONLY device (a. can't drop scripts in 'no mod' items that may already have their own touch events, b. not enough body attachment points as it is, c. keep it and it's status and control where you can get it at easily), we could divide the scripts among different prims to let them do part of the work.
- - the DPU goes in the root, the SPU's go in separate prims (one per # of devices you want to control), the GPU lurks on the back of the root prim and gets prim modification to affect the vision of the user.
- - the SPU keeps the UUID of the object currently controlling it in it's description field and the UUID of the last AV that used it stored either in the description or internally depending on whether or not giving control to the specified object is still pending. The DPU, instead of having to pass link messages back and forth, or keep updating an internal list, can find the current state of the object simply by reaching over with llGetObjectDetails(SPUn link number), [OBJECT_DESC]) and get the UUID's of the object/operator or if NULL_KEY see that the SPU is free to use.
- - the GPU is a single tiny prim that is glued to the back of the tkPBA that can be manipulated in size, color, transparency, texture, etc... to affect the vision of the victim.
There is, however, with the advent of the tkPBA 110r and later, a big change in philosophy with respect to the relay. The tkPBA has functions beyond those of just the relay (e.g., the LOCKER and other functionality), the details of which are not germane to the discussion of a relay. Yet we're committed to making the relay publicly available, including the scripts. Our solution is to provide the scripts for the DPU/GPU and the SPU; these are all the scripts needed to create an embedded relay. What is missing from them is the controlling script, what we call the supervisor, but its only purpose is to set the state of the relay. Note, you won't see anything about safeword either, the reason is that safeword is not part of the relay spec, other than a recommended good idea! In our case, the supervisor handles safeword processing and the relay simply responds as ordered.
Logo's & Signage
Think Kink has developed a logo to brand our products showing them RLV compatibility that eliminates the SL "Eye in Hand" that has some restrictive usage rights. With the publication of these scripts, we are opening them for use by the community as long as attribution is given to Think Kink. Email Ilana.Debevec@gmail.com for a TGA of the logo. --Ilana Debevec 19:52, 27 February 2009 (UTC)
In reality, you will get a pack of logos; we use different colors of insert to represent state; the one shown above is for a relay that is on and in ASK mode, we also support Off, Play, Auto, Hardcore (with or without safeword) and remotely controlled (with or without safeword). --Chloe1982 Constantine 09:57, 4 May 2012 (PDT)
tkPBA Command Extensions
A better place to look at definitions of !x-who and !x-vision is the Open Relay Group pages [1] which Think Kink will continue to support and add a growing number of x-tensions to the PBA.
!who also !x-who
- Description
- !who is implemented as a meta command to pass the UUID of WHO is trying to operate your relay, not just WHAT device and the OWNER of the device (more often than not, WHO's the operator and WHO's the owner are NOT the same avatar).
- !x-who is a synonym for !who and was created when the future of !who was put in doubt
- Background
- Since the Restrained Life viewer was introduced to the grid, almost from day one we have people coming to our store wanting a way to know WHO is trying to control their relay, it's almost become a mantra "I don't care WHAT it is, I want to know WHO it is!". This gives the tkPBA the ability to give some useful information on the actions of someone that is attempting to 'use' your relay to help you make informed decisions when your relay is in ASK mode.
- Syntax
-
- !who/(key)
- where (key) is the UUID of the AV that you wish to present to the relay.
- !who/(key)
- Implementation
- THINK KINK is implementing this in our devices with the following few caveats -
- - !who must be the FIRST entry of a RL Command string that will RESTRICT or DIRECTLY EFFECT someone. So, anything that will (for example) 'lock', 'force', 'deafen', 'mute', etc somone will get a !who
- - !who would not be required for things like !release, or anything that UNRESTRICTS someone.
- - !who is not additive, only the last !who is tracked for any given SPU (object).
- - !who/NULL_KEY is moot, if you don't know !who, don't sent it.
- - If no !who is sent, normal object verification rules apply
- - NOTE for builders.
- On a 'self activated' device (such as an area effect device that, let's say, restricts chat or tp or flying), the !who should be the UUID of the VICTIM!. This makes possible the ASK text such as "You have activated Crafty Avatar's Area of Doom and it is attempting to control your relay, ALLOW/DENY?".
- A TRAP device however would generally have someone that 'set' the device (in the case of THINK KINK devices, we have an AUTOLOCK setting) and if the device knows that, it should send the UUID of the PERSON THAT SET THE TRAP ... ie. "Crafty Avatar wants to control your relay using their Dasterdly Device, ALLOW/DENY?"
- - NOTE for builders.
- Further Points of Implementation
- The ASK message should change if a !who command comes in, so instead of "Dastardly Device owned by Random Avatar wants to control your relay, ALLOW/DENY?"
- - the message becomes "Crafty Avatar wants to control your relay using Random Avatar's Dastardly Device, ALLOW/DENY?"
- - if the owner and the operator are the same, then a more succinct message could be "Crafty Avatar wants to control your relay using their Dasterdly Device, ALLOW/DENY?"
- - if a !who is present, then should the victim DENY the request, an IM should go back to the 'clicker' "Sitting Duck has denied your attempt to control their relay".
--Ilana Debevec 19:54, 27 February 2009 (UTC)
!x-vision
- Description
- meta command to control what the victim can see while under restraint. This will allow a full range of vision control of the victim. Full blindness, partial, color, textures, etc..
- Implementation
- using a small microprim that hides on the back of our RelayHUD, we can expand and texture this to control the sight of the victim. Put them in a dark cell, they go blind. Or in a forcefield change the color, make it partially transparant, put up a texture, etc. We are/will also be using this as a "MouseLook" enforcer to punish a victim when they won't stay in mouselook (get out of mouselook, go totally blind). Currently being implemented in devices from THINK KINK.
- Syntax
- !x-vision/(color)/(alpha)/(texture)/(repeats)/(offsets)/(rotation)
- (color) = color for the HUD covering prim in RGB format <r'g'b> 0-255 or 0-1.0(NOTE: the ' is the seperator instead of , to avoid parsing issues with the rest of the RLV command string. Second note: you cannot mix number ranges either all are in the range 0 to 1.0 or all are in the range 0 to 255)
- (alpha) = % transparent to make the HUD prim cover (in alpha format 0.0-1.0 or as a percentage 0 to 100)
- (texture) = UUID for a texture to apply to the prim
- (repeats) = x/y repeats for the texture, same format as the texture tab on an prim 1.0'1.0
- (offsets) = x/y offsets for the texture, same format as the texture tab on an prim 0.0'0.0
- (rotation) = rotation of the texture
- SPECIAL ENTRY, any of the parameters can be replaced with "*" for 'do not change existing value'
- NOTE: the 'default' value of the HUD prim is 100% transparent, white, TEXTURE_BLANK. ie. !x-vision/0.0/<255'255'255>/TEXTURE_BLANK/1.0'1.0/0.0'0.0
- if all you want to do is 'blind' someone, then !x-vision/<0'0'0>/1.0/*/*/*/*
- Examples
- Total blackout "!x-vision/<0'0'0>/1.0/TEXTURE_BLANK/1.0'1.0/0.0'0.0/0.0
- Light fog "!x-vision/<128'128'128>/0.5/TEXTURE_BLANK/1.0'1.0/0.0'0.0/0.0"
- In a plywood box no matter where they look "!x-vision/<255'255'255>/1.0/TEXTURE_PLYWOOD/1.0'1.0/0.0'0.0"
- Compatibility
- since this is a metacommand, relays that don't support this should ignore it
--Ilana Debevec 18:29, 5 March 2009 (UTC)
!x-vision/clear
- Description
- complimentary command to !x-vision. Reset and remove all !x-vision restrictions.
- Syntax
- !x-vision/clear
- Compatibility
- same as !x-vision, if the relay can't, then don't
--Ilana Debevec 18:29, 5 March 2009 (UTC)
tkPBA Implementation Scripts
The DPU
The DPU (Dominant Processing Unit) handles all the listens, menus, mode control and other GLOBAL functions, it also manages the GPU (graphical processing unit) functionality.
version tk.RLV1100 DPU (120501.0) -- --Chloe1982 Constantine 12:05, 4 May 2012
// tk.RLV110x DPU(130304.0) RLV Basic Relay 1.100 and ORG 1.0
//
// ©left 2009 Think Kink (Think Kink is Ilana Debevec & Lyssa Daehlie)
// the Think Kink Restained Life PBA Relay (tkPBA for short) is released under a modified "CopyLeft" license.
//
// The short form without legalese.
// This code is provided AS-IS, OPEN-SOURCE and holds NO WARRANTY of accuracy, completeness or performance.
// It may be distributed in its full source code with this header and disclaimer and is not to be sold
// without permission. Optionally it may be distributed in a 'no mod' form within Second Life™ PROVIDED that
// either a link to the full source IS provided (ie. this page or a .zip or .rar) within the object the code is
// contained AND/OR a off-world contact point (ie. email) that the source code may be requested from. This somewhat
// unusual (no-mod) distribution is allowed to maintain the integrity and reliability of the creator reference of
// in-world objects (scripts). Changes and improvement to this code must be shared with the community so that we
// ALL benefit.
// Most Recent release code should be found here:
//
// http://wiki.secondlife.com/wiki/LSL_Protocol/Restrained_Life_Relay/Other_Implementations/Think_Kink_Restrained_Life_PBA
// Based on Maike Short's 1030b relay, with thanks to Tahni Taratal, RL Ansome, Nihal Quan and all of the staff of
// THINK KINK who helped with the shakedown and development of this device. Recursive thanks to everyone that has
// gone before on the development of the Restraint Life Relay, including (but not limited to) Felis Darwin, Nano Siemens,
// Azoth Amat, Gregor Mougin, Nano Siemens, Cerdita Piek, Satomi Ahn, Marissa Mistwallow and Chorazin Allen, Marine Kelley.
// Major and mega thanks to Maike Short for her (all too brief) guidance and inspiration as keeper of the Relay Standards
// We all wish you were still here, we won't forget you, ever.
// An extra special personal thanks to Chloe1982 Constantine without whom this would not have happend, She was able
// to help me put ideas into bits when I was buried whisker deep in both SL and RL issues.
// Now supporting the ORG (Open Relay Group) v1.0 standards as found at -
//
// http://wiki.secondlife.com/wiki/LSL_Protocol/Restrained_Life_Open_Relay_Group
//
// Think Kink is proud to be a founding member of ORG and to help the specification GROW naturally and unimpeded.
// In-world (no mod) copies of this relay may be picked up for free at
// Think Kink at http://slurl.com/secondlife/Think%20Kink/128/128/501
// or thru the "Get tkPBA" in button in most Think Kink devices
// or email to Ilana.Debevec@gmail.com for full source.
// Ilana Debevec 25 Feb 2009
// I couldn't have written this without both Ilana and Maike.
// Chloe 14 February 2009
// if needed to check what is happening here
integer VISION_COMMAND = -4360493; // identifies commands to the GPU
list coreIndex = [];
list coreData = [];
integer GPUPRIM = -50; // If we don't find it, this should be a safe enough number
integer O_ALPHA = -6;
integer O_COLOR = -5;
integer O_TEXTURE = -4;
integer O_REPEAT = -3;
integer O_OFFSET = -2;
integer O_ROTATION = -1;
integer O_NUM = 6; // Needs to be -O_ALPHA
string strReplace(string str, string search, string replace)
{
return llDumpList2String(llParseStringKeepNulls((str = "") + str, [search], []), replace);
}
integer invalidVector(vector v, float lowVal, float highVal)
{
if (v.x < lowVal || v.y < lowVal || v.z < lowVal)
return TRUE;
if (highVal < lowVal)
return FALSE;
if (v.x > highVal || v.y > highVal || v.z > highVal)
return TRUE;
return FALSE;
}
setBlind(integer corePrim, string color, string alpha, key texture, string repeats, string offsets, string rot)
{
float na;
if (alpha == "*")
na = llList2Float(coreData, O_ALPHA);
else if ((na = (float)alpha) < 0.0)
na = 0.0;
else if (na > 1.0 && na <= 100.0)
na /= 100.0;
else if (na > 100.0)
na = 1.0;
vector nc;
if (color == "*")
nc = llList2Vector(coreData, O_COLOR);
else
{
nc = (vector)strReplace(color, "'", ",");
if (nc.x > 1.0)
nc = nc/255;
if (invalidVector(nc, 0.0, 1.0))
nc = llList2Vector(coreData, O_NUM + O_COLOR);
}
if (texture)
{ // stupid SL
}
else if ((string)texture == "*")
texture = llList2Key(coreData, O_TEXTURE);
else
texture = llList2Key(coreData, O_NUM + O_TEXTURE);
float nr;
if (rot == "*")
nr = llList2Float(coreData, O_ROTATION);
else if ((nr = (float)rot) < 0.0)
nr = 0.0;
coreIndex += [corePrim];
coreData += [na, nc, texture, makeVector(repeats, 0.0, -1.0, O_REPEAT), makeVector(offsets, -1.0, 1.0, O_OFFSET), nr];
integer p;
p = llListFindList(coreIndex, [corePrim]);
if ((p+1) < llGetListLength(coreIndex))
clearBlind(corePrim);
}
vector makeVector(string str, float lv, float hv, integer offset)
{
vector nr;
if (str == "")
return llList2Vector(coreData, O_NUM + offset);
if (str == "*")
return llList2Vector(coreData, offset);
nr = (vector)("<"+strReplace(str, "'", ",")+",0.0>");
if (invalidVector(nr, lv, hv))
return llList2Vector(coreData, O_NUM + offset);
return nr;
}
clearBlind(integer corePrim)
{
integer pos = llListFindList(coreIndex, [corePrim]);
if (pos == -1)
return;
coreIndex = llDeleteSubList(coreIndex, pos, pos);
integer spos = pos * O_NUM;
coreData = llDeleteSubList(coreData, spos, spos + O_NUM - 1);
}
float blindAlpha()
{
integer i = 1;
integer n = llGetListLength(coreIndex);
float ra = llList2Float(coreData, O_NUM + O_ALPHA);
float ta;
while (i < n)
if ((ta = llList2Float(coreData, (i++ * O_NUM) + O_NUM + O_ALPHA)) < ra)
ra = ta;
return ra;
}
// make cheating (adding exceptions) a bit more difficult by not allowing
// attachment to control the viewer as they are not subjected to land building
// restrictions
string mmALLOW = "Allow";
string mmDENY = "Deny";
// ---------------------------------------------------
// Constants
// ---------------------------------------------------
string PREFIX_METACOMMAND = "!";
integer RLVRS_CHANNEL = -1812221819; // RLVRS in numbers
integer DIALOG_CHANNEL;
integer DIALOG_HANDLE;
integer STATUS_OPEN_CHANNEL = -1373421300;
integer COMMAND_CHANNEL = -1373421302;
integer CORE_CONTROL = -1383421304;
key null_key = NULL_KEY; // Thanks Darien
integer MODE_OFF = 0;
integer MODE_ASK = 1;
integer MODE_PLAY = 2;
integer MODE_AUTO = 3;
// ---------------------------------------------------
// Variables
// ---------------------------------------------------
integer mode;
// Think Kink - A few extra variables and constants
//
string RELAYTESTCMD = "tk.testrelay";
string VERCMD = "!version";
integer HARDCORE_ON = FALSE; // are we in HARDCORE Mode
key whoDoing = null_key; // Who is operating the object
integer askCount = 0; // # of open ask requests
integer coreAskPrim = 0; // # of core currently using the dialog
string ownerName; // who am I?
integer cores = 5;
string corePrims = ""; // prim numbers of the core indicators
string coreKeys = "";
string coreAskKeys = "";
integer coreInUse = 0;
integer coreAsking = 0;
key source; // which toy we're worrying about
integer g_priv = 0;
// ---------------------------------------------------
// Core keys management functions
// ---------------------------------------------------
key getControlObject(integer link)
{
integer p = 36 * llSubStringIndex(corePrims, (string)link);
if (p < 0)
return null_key;
return (key)llGetSubString(coreKeys, p, p + 35);
}
string replKey(string keyList, string newKey, integer pos)
{
if (pos == 0)
return newKey + llGetSubString(keyList, 36, -1);
if (pos == cores - 1)
return llGetSubString(keyList, 0, 143) + newKey;
integer endFirst = (pos * 36) - 1;
integer startSecond = (pos + 1) * 36;
return llGetSubString(keyList, 0, endFirst) + newKey + llGetSubString(keyList, startSecond, -1);
}
// ---------------------------------------------------
// Executing of commands
// ---------------------------------------------------
// lift all the restrictions (called by !release and by turning the relay off)
//
releaseRestrictions()
{
llMessageLinked(LINK_ALL_OTHERS, CORE_CONTROL, "FreeCore", null_key);
coreKeys = NULL_KEY + NULL_KEY + NULL_KEY + NULL_KEY + NULL_KEY;
}
// ---------------------------------------------------
// mode and dialog handling
// ---------------------------------------------------
// Make a dialog box and get the timer started
acceptOrDeny(string message)
{
llSetTimerEvent(30.0);
//llOwnerSay("Started Accept/Deny timer");
llListenControl(DIALOG_HANDLE, TRUE);
llDialog (llGetOwner(), message, [mmALLOW, mmDENY], DIALOG_CHANNEL);
//llMessageLinked(LINK_THIS, -300, "ASKMENU|" + (string)llGetOwner() + "|" + (string)DIALOG_CHANNEL + "|" + message + "|Allow,Deny", "showMenu");
}
// process the Yes/No buttons of the permission dialog
// Needs to be fixed to handle multiple simultaneous requests
key tempKey;
processDialogResponse(string message)
{
//llOwnerSay("processDialogResponse:" + message);
llSetTimerEvent(0);
if (message == mmALLOW) // pending request authorized => process it
{
llMessageLinked(coreAskPrim, CORE_CONTROL, "ExecuteSaved", null_key);
}
else if (message == mmDENY) // pending request denied
{
if (whoDoing)
llInstantMessage(whoDoing, ownerName + " has denied your request for control.");
llMessageLinked(coreAskPrim, CORE_CONTROL, "FreeCore", null_key);
}
if ((askCount -= 1) < 0)
askCount = 0;
if (askCount == 0)
{
llListenControl(DIALOG_HANDLE, FALSE);
return;
}
integer i = llSubStringIndex(corePrims, (string)coreAskPrim);
integer done = i;
string iDesc;
integer prim;
do
{
i = (i + 1) % cores;
iDesc = (string)llGetLinkPrimitiveParams(prim = (integer)llGetSubString(corePrims, i, i), [PRIM_DESC]);
//llOwnerSay("core #"+(string)i+" = " + iDesc);
}
while (i != done && llStringLength(iDesc) == 36);
ask(prim);
}
ask(integer link)
{
//llOwnerSay(llList2CSV(["ask", link, askCount]));
string desc = (string)llGetLinkPrimitiveParams(link, [PRIM_DESC]);
coreAskPrim = link;
whoDoing = (key)llGetSubString(desc, 37, 72);
source = (key)llGetSubString(desc, 0, 35);
key myOwner = llGetOwner();
key toyOwner = llGetOwnerKey(source);
string text = llGetUsername(whoDoing);
if (whoDoing == myOwner)
text = "You";
else if (text == "")
text = "Someone";
text += ", using ";
string ownerName = llGetUsername(toyOwner);
if (toyOwner == myOwner)
ownerName = "your";
else if (whoDoing == toyOwner)
ownerName = "their";
else if (ownerName == "")
ownerName = "the";
else
ownerName += "'s";
vector pos = llList2Vector(llGetObjectDetails(source, [OBJECT_POS]), 0);
integer dist = (integer)llVecDist(pos, llGetRootPosition());
//llOwnerSay(llList2CSV(["ask", source, pos, dist]));
pos.x = (integer)pos.x;
pos.y = (integer)pos.y;
pos.z = (integer)pos.z;
text += ownerName + " " + llKey2Name(source) + "\nlocated at "+ llGetRegionName()
+ " " + (string)pos + " ("
+ (string)dist + "m)\nis attempting to control your viewer";
// if (!trustworthy)
// text += "\nWARNING: This object is not owned by the people owning this parcel.";
text += "\n\nDo you accept ?";
acceptOrDeny(text); // Was isObjectIdentityTrustworthy, figure out why
}
// ---------------------------------------------------
// initialisation and login handling
// ---------------------------------------------------
init()
{
integer temp0 = 0;
integer temp1 = 0;
integer temp2 = 0;
integer temp3 = 0;
integer temp4 = 0;
key owner = llGetOwner();
ownerName = llKey2Name(owner);
// Set up the listeners
llListen (RLVRS_CHANNEL, "", "", "");
DIALOG_CHANNEL = ((integer)(llFrand(99999.0) * -1) - 2);
DIALOG_HANDLE = llListen(DIALOG_CHANNEL, "", owner, "");
llListenControl(DIALOG_HANDLE, FALSE);
//llWhisper(0,"Free Memory: " + (string) llGetFreeMemory());
integer i = llGetNumberOfPrims();
string primname;
do
{
primname = llGetLinkName(i);
if (primname == "corestat:0") temp0 = i;
else if (primname == "corestat:1") temp1 = i;
else if (primname == "corestat:2") temp2 = i;
else if (primname == "corestat:3") temp3 = i;
else if (primname == "corestat:4") temp4 = i;
else if (primname == "tk.GPU:0") GPUPRIM = i;
}
while (--i);
corePrims = (string)temp0 + (string)temp1 + (string)temp2 + (string)temp3 + (string)temp4;
coreKeys = NULL_KEY + NULL_KEY + NULL_KEY + NULL_KEY + NULL_KEY;
if (llStringLength(corePrims) != 5)
llOwnerSay("Error in relay configuration, got " + corePrims);
// ok, let's REALLY make sure we've init'ed
//
whoDoing = null_key; // Who is operating the object
askCount = 0; // # of open ask requests
coreAskPrim = 0; // # of core currently using the dialog
coreIndex = [-49];
coreData = [ 1.0, <1.0, 1.0, 1.0>, TEXTURE_BLANK, <1.0, 1.0, 1.0>, <0.0, 0.0, 0.0>, 0.0];
llSetLinkPrimitiveParamsFast(GPUPRIM, [PRIM_SIZE, <0.01, 0.01, 0.01>, PRIM_COLOR, ALL_SIDES, <1.0, 1.0, 1.0>, 0.0]);
releaseRestrictions();
//llOwnerSay("GPUPrim:" + (string)GPUPRIM);
}
//
// B E G I N S
//
default
{
state_entry()
{
init();
//llOwnerSay("Free: " + (string)llGetFreeMemory());
}
link_message(integer sender, integer channel, string message, key id)
{
//llOwnerSay(llList2CSV(["root link:", sender, channel, message, id]));
if (channel == VISION_COMMAND)
{
list lCommand = llParseString2List(message, ["/"], []);
//llOwnerSay("#"+(string)llGetListLength(lCommand)+": "+(string)lCommand);
string meta_command;
if ((meta_command = llList2String(lCommand, 0)) != "!x-vision")
return;
if (llList2String(lCommand, 1) == "clear")
clearBlind(sender);
else if (llGetListLength(lCommand) < 4)
return;
else
setBlind(sender, llList2String(lCommand, 1), llList2String(lCommand, 2),
llList2String(lCommand, 3), llList2String(lCommand, 4),
llList2String(lCommand,5), llList2String(lCommand, 6));
if (llGetListLength(coreIndex) == 1)
llSetLinkPrimitiveParamsFast(GPUPRIM, [PRIM_SIZE, <0.01, 0.01, 0.01>, PRIM_COLOR, ALL_SIDES, <1.0, 1.0, 1.0>, 0.0]);
else
llSetLinkPrimitiveParamsFast(GPUPRIM, [PRIM_COLOR, ALL_SIDES, llList2Vector(coreData, O_COLOR), blindAlpha(),
PRIM_TEXTURE, ALL_SIDES, llList2String(coreData, O_TEXTURE), llList2Vector(coreData, O_REPEAT),
llList2Vector(coreData, O_OFFSET), llList2Float(coreData, O_ROTATION),
PRIM_SIZE, <10.0, 10.0, 0.01>]);
}
else if (channel == COMMAND_CHANNEL)
{
if (message == "CheckRelay")
{
integer cx = cores;
key corecheck;
vector myPos = llGetPos();
integer isBusy = FALSE;
integer thisCore;
//llOwnerSay(llList2CSV(["Busy Relay", coreKeys, g_priv]));
while (cx--)
{
thisCore = (integer)llGetSubString(corePrims, cx, cx);
integer mask = 1 << cx;
integer t = cx * 36;
corecheck = llGetSubString(coreKeys, t, t + 35);
//corecheck = getControlObject(thisCore = (integer)llGetSubString(corePrims, cx, cx));
if (corecheck != null_key) // just on the off chance the object disappeared
{ // or we got away without getting released
//llOwnerSay(llList2CSV(["Controlled by:", cx, thisCore, corecheck]));
list l = llGetObjectDetails(corecheck, [ OBJECT_POS ]); // check on the object
if (llGetListLength(l) == 0) // ok, we're too far away, let me go
{
if (!(g_priv & mask))
llMessageLinked(LINK_THIS, STATUS_OPEN_CHANNEL,
"Lucky Day: " + llKey2Name(llGetOwner()) + " is freed because the device cannot be found.", null_key);
llMessageLinked(thisCore, CORE_CONTROL, "FreeCore", null_key);
coreKeys = replKey(coreKeys, NULL_KEY, cx);
}
else if (!(g_priv & (1 << cx)))
isBusy = TRUE;
}
}
llMessageLinked(LINK_THIS, isBusy, "RelayState", id);
}
else if (message == "SetRelayState")
{
integer p = llSubStringIndex(id, ",");
integer tmode = (integer)((string)id);
HARDCORE_ON = (integer)llGetSubString(id, p + 1, -1);
//llOwnerSay(llList2CSV(["SetRelayState", id, p, tmode, mode, HARDCORE_ON]));
if (mode != MODE_OFF && tmode == MODE_OFF)
releaseRestrictions();
else
llWhisper(RLVRS_CHANNEL, RELAYTESTCMD + "," + (string)llGetOwner() + "," + VERCMD);
if (mode = tmode)
llMessageLinked(LINK_ALL_OTHERS, CORE_CONTROL, "RelayMax", (string)(mode - 1) + llGetSubString(id, p, -1));
}
else if (message == "ReleaseRelay")
releaseRestrictions();
else if (message == "AskThem")
{
askCount++;
if (askCount == 1)
ask(sender);
}
else if (message == "SetSource")
{
integer core = llSubStringIndex(corePrims, (string)sender);
coreKeys = replKey(coreKeys, (string)id, core);
g_priv = g_priv | ~(1 << core);
}
else if (message == "IsCommitted")
{
integer core = llSubStringIndex(corePrims, (string)sender);
integer mask = 1 << core;
if ((string)id == "Grace")
g_priv = g_priv | mask;
else
g_priv = g_priv & ~mask;
if ((string)id == "Free")
coreKeys = replKey(coreKeys, NULL_KEY, core);
//llOwnerSay(llList2CSV(["IsCommitted", core, mask, g_priv]));
}
}
}
listen(integer channel, string name, key id, string message)
{
//llOwnerSay("listen:" + (string)channel + ": " + (string)id + ":" + message);
if (channel==RLVRS_CHANNEL)
{
if (mode == MODE_OFF) // Check to see that the relay is on
{
//llOwnerSay("deactivated - ignoring commands");
return; // mode is 0 (off) => reject
}
//llOwnerSay("Root:RLV listen:" + message + " from " + name);
integer p = llSubStringIndex(message, ",");
if (p == -1)
return;
string keyPart = llGetSubString(message, p + 1, p + 37);
if (keyPart != ((string)llGetOwner() + ",") && keyPart != "ffffffff-ffff-ffff-ffff-ffffffffffff,") // not for us
return;
string cmdID = llGetSubString(message, 0, p - 1);
if (cmdID == RELAYTESTCMD && (message = llGetSubString(message, p + 38, -1)) == (VERCMD + ",ok"))
{
llOwnerSay("Detected another relay: " + name);
return;
}
if (llSubStringIndex(message, ",") != -1) // this is malformed and not for us
return;
message = cmdID + "," + message;
//llOwnerSay("Root:id="+(string)id+":coreKeys="+coreKeys+":index="+(string)llSubStringIndex(coreKeys, (string)id));
if ((p = llSubStringIndex(coreKeys, (string)id)) == -1)
{
//llOwnerSay("Free core index:" + (string)llSubStringIndex(coreKeys, NULL_KEY));
if ((p = llSubStringIndex(coreKeys, NULL_KEY)) == -1) // no core is available
{
if (!g_priv)
return;
// There's a core in a grace period, dare we use it?
return;
}
p = p / 36;
coreKeys = replKey(coreKeys, (string)id, p);
g_priv = g_priv & ~(1 << p);
}
else
p = p / 36;
llMessageLinked((integer)llGetSubString(corePrims, p, p), RLVRS_CHANNEL, message, id);
//llOwnerSay("Sent " + message + " to #" + llGetSubString(corePrims, p, p) + " (" + (string)p + ")");
}
else if (channel == DIALOG_CHANNEL)
processDialogResponse(message);
}
changed(integer change)
{
if (change & CHANGED_OWNER)
init();
}
attach(key id)
{
askCount = 0;
if (id != null_key)
llWhisper(RLVRS_CHANNEL, RELAYTESTCMD + "," + (string)llGetOwner() + "," + VERCMD);
}
timer()
{
processDialogResponse(mmDENY);
}
}
The SPU
The SPU (Slave Processing Unit) is assigned to an in-world object as it attempts to control the PBA. Each SPU is located in a seperate prim that, in the tkPBA is a single 'pip' inside the loop of the padlock that is the tkPBA HUD. When a SPU is free, the pip is black, when it is actively being controlled by an object, it turns green. When an object is assigned to the SPU but the tkPBA is in 'ASK' mode, the pip turns yellow until permission is granted (green) or denied (black and freed). The description field of the prim holds the UUID of the object currently controlling the SPU and the UUID of the last Avatar to send it a command (if available).
The SPU maintains all the restrictions of the object on the wearer, and generally the 'dirty work' of the relay function.
version tk.RLV1100 SPU (120502.0) --Chloe1982 Constantine 09:08, 4 May 2012 (PDT)
// tk.RLV1030 SPU (130121.0)
//
// ©left 2009 Think Kink (Think Kink is Ilana Debevec & Lyssa Daehlie)
// the Think Kink Restained Life PBA Relay (tkPBA for short) is released under a modified "CopyLeft" license.
//
// The short form without legalese.
// This code is provided AS-IS, OPEN-SOURCE and holds NO WARRANTY of accuracy, completeness or performance.
// It may be distributed in its full source code with this header and disclaimer and is not to be sold
// without permission. Optionally it may be distributed in a 'no mod' form within Second Life™ PROVIDED that
// either a link to the full source IS provided (ie. this page or a .zip or .rar) within the object the code is
// contained AND/OR a off-world contact point (ie. email) that the source code may be requested from. This somewhat
// unusual (no-mod) distribution is allowed to maintain the integrity and reliability of the creator reference of
// in-world objects (scripts). Changes and improvement to this code must be shared with the community so that we
// ALL benefit.
// Most Recent release code should be found here:
//
// http://wiki.secondlife.com/wiki/LSL_Protocol/Restrained_Life_Relay/Other_Implementations/Think_Kink_Restrained_Life_PBA
// Based on Maike Short's 1030b relay, with thanks to Tahni Taratal, RL Ansome, Nihal Quan and all of the staff of
// THINK KINK who helped with the shakedown and development of this device. Recursive thanks to everyone that has
// gone before on the development of the Restraint Life Relay, including (but not limited to) Felis Darwin, Nano Siemens,
// Azoth Amat, Gregor Mougin, Nano Siemens, Cerdita Piek, Satomi Ahn, Marissa Mistwallow and Chorazin Allen, Marine Kelley.
// Major and mega thanks to Maike Short for her (all too brief) guidance and inspiration as keeper of the Relay Standards
// We all wish you were still here, we won't forget you, ever.
// An extra special personal thanks to Chloe1982 Constantine without whom this would not have happend, She was able
// to help me put ideas into bits when I was buried whisker deep in both SL and RL issues.
// Now supporting the ORG (Open Relay Group) v1.0 standards as found at -
//
// http://wiki.secondlife.com/wiki/LSL_Protocol/Restrained_Life_Open_Relay_Group
//
// Think Kink is proud to be a founding member of ORG and to help the specification GROW naturally and unimpeded.
// In-world (no mod) copies of this relay may be picked up for free at
// Think Kink at http://slurl.com/secondlife/Think%20Kink/128/128/501
// or Think Kink in Zindra http://slurl.com/secondlife/Gilda%20Pointe/245/183/49
// or thru the "Get tkPBA" in button in most Think Kink devices
// or email to Ilana.Debevec@gmail.com for full source.
// Ilana Debevec 25 Feb 2009
// I couldn't have written this without both Ilana and Maike.
// Chloe 14 February 2009
key null_key = NULL_KEY;
// ---------------------------------------------------
// Constants
// ---------------------------------------------------
integer RLVRS_PROTOCOL_VERSION = 1100; // version of the protocol, stated on the specification page
string RLVRS_IMPL_VERSION = ", satisfying the 1.1 and ORG standards."; // version of the implementation for debugging
string ORG_VERSIONS = "ORG=0001/who=001/vision=001/handover=001";
string myName = "tkPBA (unknown)";
integer RLVRS_CHANNEL = -1812221819; // RLVRS in numbers
integer STATUS_OPEN_CHANNEL = -1373421300;
integer STATUS_SAY_CHANNEL = -1373421301;
integer CORE_CONTROL = -1383421304;
integer COMMAND_CHANNEL = -1373421302;
integer GPU_CHANNEL = -4360493;
integer HARMLESS_COMMAND = 0;
integer FORCE_COMMAND = 1;
integer BINDING_COMMAND = 2;
integer MAX_TIME_AUTOACCEPT_AFTER_FORCESIT = 60; // seconds
integer LOGIN_DELAY_WAIT_FOR_PONG = 30;
integer LOGIN_DELAY_WAIT_FOR_FORCE_SIT = 60;
float reAskTime = 300.0;
integer noPong = FALSE;
integer ALLOW_CONTROL_BY_ATTACHMENTS = TRUE;
integer coreName = -1;
integer cmdMax = 0;
string savedCmds = "";
integer isHardcore = 0;
integer isComplexPerm = 0;
integer listenHandle = 0;
// ---------------------------------------------------
// Variables
// ---------------------------------------------------
string roots = ""; // list of all commands enforced by the relay
key source; // UUID of the object I'm commanded by, always equal to NULL_KEY if restrictions is empty, always set if not
string objName = "unknown object";
key owner = null_key;
// used on login
integer timerTickCounter; // count the number of time events on login (forceSit has to be delayed a bit)
integer loginWaitingForPong;
integer loginPendingForceSit;
key lastForceSitDestination;
integer lastForceSitTime;
integer holding = FALSE;
key whoDoing = null_key;
key devOwner = null_key;
key devQuery = null_key;
string devOName = "";
string whoName = "";
integer loginTimer = FALSE;
integer gracePeriod = FALSE;
integer unchecked = TRUE;
integer blinded = FALSE;
// ---------------------------------------------------
// Low Level Communication
// ---------------------------------------------------
// acknowledge or reject
ack(string cmd_id, key id, string cmd, string ack)
{
llRegionSayTo(id, RLVRS_CHANNEL, cmd_id + "," + (string)id + "," + cmd + "," + ack);
//llRegionSay(RLVRS_CHANNEL, cmd_id + "," + (string)id + "," + cmd + "," + ack);
//llOwnerSay(llList2CSV(["ack", id, RLVRS_CHANNEL, cmd_id + "," + (string)id + "," + cmd + "," + ack]));
}
// cmd begins with a '@'
sendRLCmd(string cmd)
{
//llOwnerSay("Send: " + cmd);
if (cmd != "")
llOwnerSay(cmd);
}
setSource(key id)
{
//llOwnerSay(llList2CSV(["setSource", id]));
objName = "unknown object";
devOName = "";
devOwner = null_key;
source = id;
if (holding)
llSetObjectDesc((string)id + "^" + (string)whoDoing);
else
llSetObjectDesc((string)id);
if (source == null_key)
{
whoDoing = null_key;
whoName = "";
unchecked = TRUE;
return;
}
objName = llKey2Name(source);
devOwner = llGetOwnerKey(source);
devQuery = llRequestAgentData(devOwner, DATA_NAME);
}
// ---------------------------------------------------
// Executing of commands
// ---------------------------------------------------
// execute a non-parsed message
// this command could be denied here for policy reasons, (if it were implemenetd)
// but this time there will be an acknowledgement
execute(key id, string message)
{
//llOwnerSay(llList2CSV(["execute", id, message]));
integer cp = llSubStringIndex(message, ",");
string cmd_id = llGetSubString(message, 0, cp - 1); // Whatever command id waa given
message = llGetSubString(message, cp + 1, -1);
string command;
string prefix;
//llOwnerSay("execute1:" + message);
if (message == "!pong")
{
noPong = FALSE;
loginWaitingForPong = FALSE;
}
else if (noPong)
{
llOwnerSay("@clear");
roots = "";
noPong = FALSE;
loginWaitingForPong = FALSE;
}
do
{
if ((cp = llSubStringIndex(message, "|")) == -1)
command = message;
else
{
if (cp == 0)
command = "";
else
command = llGetSubString(message, 0, cp - 1);
if (cp == (llStringLength(message) - 1))
message = "";
else
message = llGetSubString(message, cp + 1, -1);
}
//llOwnerSay(llList2CSV(["split", cp, command, message]));
//llOwnerSay("execute2:" + cmd_id + ":" + command);
prefix = llGetSubString(command, 0, 0);
if (prefix == "@") // this is a RLV command
executeRLVCommand(cmd_id, id, command);
else if (prefix == "!") // this is a metacommand, aimed at the relay itself
executeMetaCommand(cmd_id, id, command);
}
while (cp != -1);
//llOwnerSay(llList2CSV(["going green", blinded, llStringLength(roots), roots]));
if (blinded || llStringLength(roots))
{
llSetColor(<0.0, 1.0, 0.0>, ALL_SIDES); // Green
llSetAlpha(1.0, ALL_SIDES);
if (gracePeriod)
{
//llOwnerSay("timer5: 0");
llSetTimerEvent(0.0);
gracePeriod = FALSE;
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "IsCommitted", "Busy");
}
unchecked = FALSE;
}
else
{
//llOwnerSay("timer6: " + (string)reAskTime);
llSetTimerEvent(reAskTime);
gracePeriod = TRUE;
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "IsCommitted", "Grace");
llSetColor(<0.0, 0.0, 0.0>,ALL_SIDES); // Black
llSetAlpha(1.0,ALL_SIDES);
}
}
// is this a query?
integer isNumeric(string behav)
{
return ((llGetSubString(behav, 0, 3) == "@get") ||
(llGetSubString(behav, 0, 7) == "@version") ||
(llGetSubString(behav, 0, 10) == "@findfolder"));
}
// executes a command for the restrained life viewer
// with some additinal magic like book keeping
executeRLVCommand(string cmd_id, string id, string command)
{
//llOwnerSay(llList2CSV(["eRLVCmd", cmd_id, id, command]));
integer ep = llSubStringIndex(command = llToLower(command), "=");
// we need to know whether whether is a rule or a simple command
string behav = command;
string param = "";
if (ep != -1)
{
behav = llGetSubString(command, 0, ep - 1); // @getattach:skull
param = llGetSubString(command, ep + 1, -1); // 2222
}
integer ind = inString(roots, behav, "|", TRUE, TRUE);
string behavName = behav;
string option = "";
if ((ep = llSubStringIndex(behav, ":")) != -1)
{
behavName = llGetSubString (behav, 0, ep - 1); // @sit
option = llGetSubString (behav, ep + 1, -1); // <uuid>
}
//llOwnerSay(llList2CSV(["Checking", behavName, option]));
if (isNumeric(behavName) && ((integer)param <= 0 || (integer)param == DEBUG_CHANNEL))
{
ack(cmd_id, id, command, "ko");
return;
}
else if (behavName == "@notify" && ((integer)option <= 0 || (integer)option == DEBUG_CHANNEL))
{
ack(cmd_id, id, command, "ko");
return;
}
else if (param=="n" || param=="add") // add to restrictions
{
if (behavName == "@acceptpermission")
{
ack(cmd_id, id, command, "ko");
return;
}
if (ind < 0)
{
if (roots == "")
roots = behav;
else
roots = roots + "|" + behav;
}
}
else if (param == "y" || param == "rem") // remove from restrictions
{
//llOwnerSay(llList2CSV(["releasing", param, behav, ind]));
if (behav == roots)
roots = "";
else if (ind > -1)
{
integer bl = llStringLength(behav);
if (ind + bl == llStringLength(roots))
ind--;
//llOwnerSay(llList2CSV(["deleting", roots, ind, ind + bl, llDeleteSubString(roots, ind, ind + bl)]));
roots = llDeleteSubString(roots, ind, ind + bl);
}
}
else if (param != "force" && ((integer) param == 0) && (behavName != "@clear"))
{
//llOwnerSay("rejecting" + (string)param);
// this is either an unknown param (not "n", "add", "y", "rem", "force")
// or a query which should be answered on the public chat channel 0.
ack(cmd_id, id, command, "ko");
return;
}
// Note: @clear MUST NOT be used because the restrictions will be reapplied on next login
// (but we need this check here because "!release|@clear" is a BROKEN attempt to work around
// a bug in the first relay implementation. You should refuse to use relay versions < 1013
//llOwnerSay(llList2CSV(["executing", command, behavName, param]));
if (command == "@clear")
releaseRestrictions();
else
{
// remembers the time and object if this command is a force sit
// clear lastForceSitDestination in case we are now prevented from standing up and
// the force sit was long ago. Note: restrictions is checked to prevent the
// clearance in case @unsit is just send again on login
if (behavName == "@unsit")
{
if (inString(roots, "@unsit", "|", TRUE, TRUE) == -1)
{
if (lastForceSitTime + MAX_TIME_AUTOACCEPT_AFTER_FORCESIT < llGetUnixTime())
{
//llOwnerSay("clearing lastForceSitDestination");
lastForceSitDestination = null_key;
}
}
}
if (param == "force" && behavName == "@sit")
{
lastForceSitDestination = (key) option;
lastForceSitTime = llGetUnixTime();
//llOwnerSay("remembered force sit");
}
sendRLCmd(command); // execute command
}
ack(cmd_id, id, command, "ok"); // acknowledge
}
handleHandOver(string id, key targetObject, integer keepRestrictions)
{
//llOwnerSay("handover");
if (!keepRestrictions)
releaseRestrictions();
setSource(targetObject);
pingWorldObjectIfUnderRestrictions();
}
// executes a meta command which is handled by the relay itself
executeMetaCommand(string cmd_id, string id, string commandString)
{
//llOwnerSay(llList2CSV(["Meta", cmd_id, id, commandString]));
list tokens = llParseString2List(commandString, ["/"], []);
string command = llList2String(tokens, 0);
if (command == "!version") // checking relay protocol version
{
ack(cmd_id, id, command, (string) RLVRS_PROTOCOL_VERSION);
}
else if (command == "!implversion") // checking relay version
{
ack(cmd_id, id, command, myName + RLVRS_IMPL_VERSION);
}
else if (command == "!x-orgversions")
ack(cmd_id, id, command, ORG_VERSIONS);
else if (command == "!release") // release all the restrictions (end session)
{
ack(cmd_id, id, command, "ok");
releaseRestrictions();
}
else if (command == "!x-who")
{
key k = llList2Key(tokens, 1);
if (k)
{
whoDoing = k;
whoName = llKey2Name(k);
}
}
else if (command == "!x-vision")
{
blinded = commandString != "!x-vision/clear";
llMessageLinked(LINK_ROOT, GPU_CHANNEL, commandString, null_key);
ack(cmd_id, id, commandString, "ok");
}
else if (command == "!x-handover")
handleHandOver(id, llList2Key(tokens, 1), llList2Integer(tokens, 2));
else
ack(cmd_id, id, command, "ko");
}
// lift all the restrictions (called by !release and by turning the relay off)
releaseRestrictions()
{
holding = FALSE;
llSetColor(<0.0, 0.0, 0.0>,ALL_SIDES); // Black
llSetAlpha(1.0,ALL_SIDES);
llMessageLinked(LINK_ROOT, GPU_CHANNEL, "!x-vision/clear", null_key);
blinded = 0;
if (llStringLength(roots))
llOwnerSay("@clear");
lastForceSitDestination = null_key;
roots = "";
loginPendingForceSit = FALSE;
savedCmds = ""; // just in case we had any of these lurking
loginTimer = FALSE;
if (source != null_key)
{
//llOwnerSay("Timer7: " + (string)reAskTime);
llSetTimerEvent(reAskTime);
gracePeriod = TRUE;
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "IsCommitted", "Grace");
}
}
// ---------------------------------------------------
// login handling
// ---------------------------------------------------
// send a ping request and start a timer
pingWorldObjectIfUnderRestrictions()
{
//llOwnerSay(llList2CSV(["pingWorldObjectIfUnderRestrictions", source, loginPendingForceSit]));
loginWaitingForPong = FALSE;
loginTimer = FALSE;
noPong = FALSE;
if (source)
{
ack("ping", source, "ping", "ping");
timerTickCounter = 0;
//llOwnerSay("Timer8: 1");
llSetTimerEvent(1.0);
loginWaitingForPong = TRUE;
loginTimer = TRUE;
noPong = TRUE;
}
}
// ---------------------------------------------------
// Permission Handling
// ---------------------------------------------------
integer inString(string source, string pattern, string follower, integer follow, integer endOK)
{
integer fp;
integer sl;
integer pl = llStringLength(pattern);
integer bonus = 0;
while (sl = llStringLength(source))
{
integer pp = llSubStringIndex(source, pattern);
if (pp == -1) // the easy case; it's not there
return -1;
if (pp + pl == sl) // it's OK for the pattern to terminate the source
{
if (endOK)
return pp + bonus;
else
return -1;
}
// If the pattern is appropriately followed, then we're done
fp = llSubStringIndex(source = llGetSubString(source, pp + pl, -1), follower);
if (follow && (fp == 0))
return pp + bonus;
if (!follow && (fp != 0))
return pp + bonus;
bonus += pp + pl;
}
return -1;
}
integer check(string commands)
{
integer cp = llSubStringIndex(commands, ",");
if (cp == -1)
return -1;
commands = llGetSubString(commands, cp + 1, -1);
// Do we know who is operating the toy?
cp = -1;
if ((cp = llSubStringIndex(commands, "!x-who/")) == -1)
{
if ((cp = llSubStringIndex(commands, "!who/")) != -1)
cp += 5;
}
else
cp += 7;
key tempWho = (key)llGetSubString(commands, cp, cp + 35);
if (tempWho)
whoDoing = tempWho;
// Do we need to worry?
if (inString(commands, "=n", "|", TRUE, TRUE) != -1)
return BINDING_COMMAND;
if (inString(commands, "=add", "|", TRUE, TRUE) != -1)
return BINDING_COMMAND;
// What about ORG meta-commands?
// The !vision check is deprecated and will be removed
if (inString(commands, "!x-vision/", "clear", FALSE, FALSE) != -1)
return BINDING_COMMAND;
if (inString(commands, "!x-handover", "/", TRUE, FALSE) != -1)
return FALSE;
// Might we get embarrassed?
if (inString(commands, "=force", "|", TRUE, TRUE) != -1)
return FORCE_COMMAND;
return HARMLESS_COMMAND;
}
integer checkPerm(key id)
{
if (isHardcore) // OK, in hardcore we will never check any more
return TRUE;
// Now check for land status
key parcel_owner=llList2Key (llGetParcelDetails (llGetPos (), [PARCEL_DETAILS_OWNER]), 0);
key parcel_group=llList2Key (llGetParcelDetails (llGetPos (), [PARCEL_DETAILS_GROUP]), 0);
key object_owner=llGetOwnerKey(id);
key object_group=llList2Key (llGetObjectDetails (id, [OBJECT_GROUP]), 0);
//llOwnerSay("owner= " + llKey2Name(parcel_owner) + " / " + llKey2Name(object_owner));
//llOwnerSay("group= " + llKey2Name(parcel_group) + " / " + llKey2Name(object_group));
return object_owner == owner // IF I am the owner of the object
|| object_owner == parcel_owner // OR its owner is the same as the parcel I'm on
|| object_group == parcel_group; // OR its group is the same as the parcel I'm on
}
// ---------------------------------------------------
// Pending Command Handling
// ---------------------------------------------------
gluePending(string message, key id)
{
integer l;
if ((l = llStringLength(savedCmds)) > 4000)
{
llMessageLinked(LINK_ROOT, STATUS_OPEN_CHANNEL, llKey2Name(id) + " is flooding commands. Releasing restrictions.", null_key);
releaseRestrictions();
}
else if (l)
savedCmds = savedCmds + "," + message;
else
savedCmds = message;
if (holding)
return;
holding = TRUE;
integer p;
if ((p = llSubStringIndex(message, "!x-who/")) != -1)
{
if (whoDoing = llGetSubString(message, p + 7, p + 42))
;
else
whoDoing = null_key;
}
else if (p = llSubStringIndex(message, "!who/")) // Compatibility with old toys
{
if (whoDoing = llGetSubString(message, p + 5, p + 40))
;
else
whoDoing = null_key;
}
setSource(source);
llSetColor(<1.0, 1.0, 0.0>,ALL_SIDES); // Yellow
llSetAlpha(1.0,ALL_SIDES);
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "AskThem", null_key);
}
default
{
state_entry()
{
integer p;
string s;
if ((p = llSubStringIndex(s = llGetObjectName(), ":")) == -1)
return;
coreName = (integer)llGetSubString(s, p + 1, -1);
llSetColor(<0.0, 0.0, 0.0>, ALL_SIDES); // Black
llSetAlpha(1.0, ALL_SIDES);
setSource(null_key);
myName = llKey2Name(llGetLinkKey(LINK_ROOT));
owner = llGetOwner();
//llOwnerSay("Free Memory: " + (string) llGetFreeMemory());
}
on_rez(integer start_param)
{
//llOwnerSay(llList2CSV(["on_rez", source, roots, inString(roots, "@unsit", "|", TRUE, 0)]));
// relogging, we must refresh the viewer and ping the object if any
// if source is set to something, fire all the stored restrictions
// sends the known restrictions (again) to the RL-viewer
if (source != null_key && roots != "")
{
integer pp;
string sr = roots;
do
{
pp = llSubStringIndex(sr, "|");
if (pp == -1)
sendRLCmd(sr + "=n");
else
{
sendRLCmd(llGetSubString(sr, 0, pp - 1) + "=n");
sr = llGetSubString(sr, pp + 1, -1);
}
}
while (pp != -1);
if (inString(roots, "@unsit", "|", TRUE, TRUE) != -1)
loginPendingForceSit = TRUE;
pingWorldObjectIfUnderRestrictions();
}
else
{
loginTimer = FALSE;
if (gracePeriod)
{
//llOwnerSay("timer9: 0");
llSetTimerEvent(0.0);
unchecked = TRUE;
gracePeriod = FALSE;
}
setSource(null_key);
}
//llOwnerSay("on_rez: " + (string)loginPendingForceSit);
}
attach(key id)
{
if (id == null_key)
{
// Tell the object in world about this canceled session
if (source != null_key)
ack("release", source, "!release", "ok");
releaseRestrictions();
}
else
llRequestPermissions(owner = llGetOwner(), PERMISSION_TAKE_CONTROLS);
}
run_time_permissions(integer perm)
{
if (perm & PERMISSION_TAKE_CONTROLS)
llTakeControls(CONTROL_FWD, TRUE, TRUE);
}
timer()
{
//llOwnerSay(llList2CSV(["timer", loginTimer, timerTickCounter, loginWaitingForPong, loginPendingForceSit, source, lastForceSitDestination]));
if (loginTimer)
{
//llOwnerSay(llList2CSV(["timer", loginWaitingForPong, timerTickCounter, loginPendingForceSit, source, lastForceSitDestination]));
timerTickCounter++;
//llOwnerSay("timer (" + (string) timerTickCounter + "): waiting for pong: " + (string) loginWaitingForPong + "pendingForceSit:" + (string) loginPendingForceSit);
if (loginWaitingForPong && (timerTickCounter >= LOGIN_DELAY_WAIT_FOR_PONG))
{
llMessageLinked(LINK_ROOT, STATUS_OPEN_CHANNEL, "Lucky Day: " + llKey2Name(owner) + " is freed because " + objName + " is not available.", null_key);
loginWaitingForPong = FALSE;
loginPendingForceSit = FALSE;
releaseRestrictions();
}
if (loginPendingForceSit)
{
integer agentInfo = llGetAgentInfo(owner);
if (agentInfo & AGENT_SITTING)
{
loginPendingForceSit = FALSE;
//llOwnerSay("is sitting now");
}
else if (timerTickCounter == LOGIN_DELAY_WAIT_FOR_FORCE_SIT)
{
llMessageLinked(LINK_ROOT, STATUS_OPEN_CHANNEL, "Lucky Day: " + llKey2Name(owner) + " is freed because sitting down again was not possible.", null_key);
loginPendingForceSit = FALSE;
releaseRestrictions();
}
else
{
key sitTarget = source;
if (lastForceSitDestination)
sitTarget = lastForceSitDestination;
//llOwnerSay("Force sit during login on " + (string) sitTarget + " (source=" + (string) source + ", lastForceSitDestination=" + (string) lastForceSitDestination + ")");
sendRLCmd ("@sit:" + (string) sitTarget + "=force");
}
}
if (!loginPendingForceSit && !loginWaitingForPong)
{
//llOwnerSay("Timer1: 0");
llSetTimerEvent(0.0);
}
}
else
{
//llOwnerSay("Timer2: 0");
llSetTimerEvent(0.0);
setSource(null_key);
gracePeriod = FALSE;
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "IsCommitted", "Free");
}
}
link_message(integer sender, integer num, string message, key id)
{
//llOwnerSay("Link:" + (string)num + ": " + message);
if (num == CORE_CONTROL)
{
if (message == "RelayMax")
{
cmdMax = (integer)((string)id);
unchecked = TRUE;
isHardcore = (integer)llGetSubString(id, 2, 2);
}
else if (message == "FreeCore")
{
if (source != null_key)
ack("safeword", source, "!release", "ok");
releaseRestrictions();
//llOwnerSay("Timer3: 0");
llSetTimerEvent(0.0);
setSource(null_key);
whoDoing = null_key;
whoName = "";
devOName = "";
devOwner = null_key;
unchecked = TRUE;
}
else if (message == "ExecuteSaved")
{
string cmdId;
integer cp = llSubStringIndex(savedCmds, ",");
unchecked = FALSE;
//llOwnerSay(llList2CSV(["executeSaved", savedCmds]));
do
{
cmdId = llGetSubString(savedCmds, 0, cp - 1);
savedCmds = llGetSubString(savedCmds, cp + 1, -1);
if ((cp = llSubStringIndex(savedCmds, ",")) == -1)
execute(source, cmdId + "," + savedCmds);
else
{
execute(source, cmdId + "," + llGetSubString(savedCmds, 0, cp - 1));
savedCmds = llGetSubString(savedCmds, cp + 1, -1);
cp = llSubStringIndex(savedCmds, ",");
}
}
while (cp != -1);
holding = FALSE;
}
}
else if (num == RLVRS_CHANNEL)
{
//llOwnerSay(llList2CSV(["First", source, id, holding, unchecked]));
if (source == null_key)
{
setSource(id);
unchecked = TRUE;
}
if (holding)
{
gluePending(message, id);
return;
}
if (unchecked)
{
integer thisLevel = check(message); // We'll have to check
//llOwnerSay(llList2CSV(["second", thisLevel, message, unchecked]));
if (thisLevel != HARMLESS_COMMAND)
{
integer untrusted = !checkPerm(id);
//llOwnerSay(llList2CSV(["third", untrusted, cmdMax, unchecked]));
if (isComplexPerm)
{
holding = TRUE;
savedCmds = message;
llMessageLinked(LINK_ROOT, COMMAND_CHANNEL, "CheckPerm" + (string)thisLevel+(string)(10 * cmdMax + untrusted), id);
return;
}
if (untrusted || (thisLevel > cmdMax))
{
gluePending(message, id);
return;
}
else if (thisLevel == BINDING_COMMAND)
unchecked = FALSE;
//llOwnerSay(llList2CSV(["done", thisLevel, cmdMax, unchecked]));
}
}
//llOwnerSay(llList2CSV(["execute", unchecked, cmdMax]));
execute(id, message);
}
}
touch_start(integer num)
{
// How this could be anything other than 1 I don't know
string message = "Idle";
if (source != null_key)
{
key devOwner = llGetOwnerKey(source);
string who = "";
if (whoName != "")
who = whoName + ", using ";
string whose = "an anonymously owned ";
if (owner == devOwner)
whose = "your ";
else if (devOwner == whoDoing)
whose = "their ";
else if (devOName != "")
whose = devOName + "'s ";
vector pos = llList2Vector(llGetObjectDetails(source, [OBJECT_POS]), 0);
message = who + whose + llKey2Name(source) + " located at " + llGetRegionName()
+ " <" + (string) ((integer) pos.x)
+ ", " + (string) ((integer) pos.y)
+ ", " + (string) ((integer) pos.z) + ">";
}
llMessageLinked(LINK_ROOT, STATUS_SAY_CHANNEL, "Core #" + (string)coreName + ": " +message, null_key);
}
changed(integer change)
{
if (change & (CHANGED_OWNER | CHANGED_INVENTORY | CHANGED_ALLOWED_DROP))
{
llResetScript();
}
}
dataserver(key query, string data)
{
if (query == devQuery) // I don't see how it could be anything else
devOName = data;
}
}