/**
* @fileoverview Script Compiler / Decompiler / Runner
* @author Ylian Saint-Hilaire
* @version v0.1.0e
*/

// Core functions
script_functionTable1 = ['nop', 'jump', 'set', 'print', 'dialog', 'getitem', 'substr', 'indexof', 'split', 'join', 'length', 'jsonparse', 'jsonstr', 'add', 'substract', 'parseint', 'wsbatchenum', 'wsput', 'wscreate', 'wsdelete', 'wsexec', 'scriptspeed', 'wssubscribe', 'wsunsubscribe', 'readchar', 'signwithdummyca'];

// functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTable2 = ['encodeuri', 'decodeuri', 'passwordcheck', 'atob', 'btoa', 'hex2str', 'str2hex', 'random', 'md5', 'maketoarray', 'readshort', 'readshortx', 'readint', 'readsint', 'readintx', 'shorttostr', 'shorttostrx', 'inttostr', 'inttostrx'];

// functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTableX2 = [encodeURI, decodeURI, passwordcheck, window.atob.bind(window), window.btoa.bind(window), hex2rstr, rstr2hex, random, rstr_md5, MakeToArray, ReadShort, ReadShortX, ReadInt, ReadSInt, ReadIntX, ShortToStr, ShortToStrX, IntToStr, IntToStrX];

// Optional functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTable3 = ['pullsystemstatus', 'pulleventlog', 'pullauditlog', 'pullcertificates', 'pullwatchdog', 'pullsystemdefense', 'pullhardware', 'pulluserinfo', 'pullremoteaccess', 'highlightblock', 'disconnect', 'getsidstring', 'getsidbytearray'];

// Optional functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
script_functionTableX3 = [
    PullSystemStatus
    ,
    // ###BEGIN###{EventLog}
    PullEventLog
    // ###END###{EventLog}
    ,
    // ###BEGIN###{AuditLog}
    PullAuditLog
    // ###END###{AuditLog}
    ,
    // ###BEGIN###{Certificates}
    PullCertificates
    // ###END###{Certificates}
    ,
    // ###BEGIN###{AgentPresence}
    PullWatchdog
    // ###END###{AgentPresence}
    ,
    // ###BEGIN###{SystemDefense}
    PullSystemDefense
    // ###END###{SystemDefense}
    ,
    // ###BEGIN###{HardwareInfo}
    PullHardware
    // ###END###{HardwareInfo}
    ,
    PullUserInfo
    ,
    // ###BEGIN###{RemoteAccess}
    PullRemoteAccess
    // ###END###{RemoteAccess}
    ,
    // ###BEGIN###{Scripting-Editor}
    script_HighlightBlock
    // ###END###{Scripting-Editor}
    ,
    // ###BEGIN###{ComputerSelector}
    disconnect
    // ###END###{ComputerSelector}
    ,
    function (runner, x) { return GetSidString(x); }
    ,
    function (runner, x) { return GetSidByteArray(x); }
];

// Setup the script state
function script_setup(binary, startvars) {
    var obj = { startvars:startvars };
    if (binary.length < 6) { console.error('Invalid script length'); return null; } // Script must have at least 6 byte header
    if (ReadInt(binary, 0) != 0x247D2945) { console.error('Invalid binary script'); return null; } // Check the script magic header
    if (ReadShort(binary, 4) > 1) { console.error('Unsupported script version'); return null; } // Check the script version
    obj.script = binary.substring(6);
    // obj.onStep;
    // obj.onConsole;

    // Reset the script to the start
    obj.reset = function (stepspeed) {
        obj.stop();
        obj.ip = 0;
        obj.variables = startvars;
        obj.state = 1;
    }

    // Start the script
    obj.start = function (stepspeed) {
        obj.stop();
        obj.stepspeed = stepspeed;
        if (stepspeed > 0) { obj.timer = setInterval(function () { obj.step() }, stepspeed); }
    }

    // Stop the script
    obj.stop = function () {
        if (obj.timer != null) { clearInterval(obj.timer); }
        obj.timer = null;
        obj.stepspeed = 0;
    }

    // function used to load and store variable values
    obj.getVar = function (name) { if (name == undefined) return undefined; return obj.getVarEx(name.split('.'), obj.variables); }
    obj.getVarEx = function (name, val) { try { if (name == undefined) return undefined; if (name.length == 0) return val; return obj.getVarEx(name.slice(1), val[name[0]]); } catch (e) { return null; } }
    obj.setVar = function (name, val) { obj.setVarEx(name.split('.'), obj.variables, val); }
    obj.setVarEx = function (name, vars, val) { if (name.length == 1) { vars[name[0]] = val; } else { obj.setVarEx(name.slice(1), vars[name[0]], val); } }

    // Run the script one step forward
    obj.step = function () {
        if (obj.state != 1) return;
        if (obj.ip < obj.script.length) {
            var cmdid = ReadShort(obj.script, obj.ip);
            var cmdlen = ReadShort(obj.script, obj.ip + 2);
            var argcount = ReadShort(obj.script, obj.ip + 4);
            var argptr = obj.ip + 6;
            var args = [];

            // Clear all temp variables (This is optional)
            for (var i in obj.variables) { if (i.startsWith('__')) { delete obj.variables[i]; } }

            // Loop on each argument, moving forward by the argument length each time
            for (var i = 0; i < argcount; i++) {
                var arglen = ReadShort(obj.script, argptr);
                var argval = obj.script.substring(argptr + 2, argptr + 2 + arglen);
                var argtyp = argval.charCodeAt(0);
                argval = argval.substring(1);
                if (argtyp < 2) {
                    // Get the value and replace all {var} with variable values
                    while (argval.split("{").length > 1) { var t = argval.split("{").pop().split("}").shift(); argval = argval.replace('{' + t + '}', obj.getVar(t)); }
                    if (argtyp == 1) { obj.variables['__' + i] = decodeURI(argval); argval = '__' + i; } // If argtyp is 1, this is a literal. Store in temp variable.
                    args.push(argval);
                }
                if (argtyp == 2 || argtyp == 3) {
                    obj.variables['__' + i] = ReadSInt(argval, 0);
                    args.push('__' + i);
                }
                argptr += (2 + arglen);
            }

            // Move instruction pointer forward by command size
            obj.ip += cmdlen;

            // Get all variable values
            var argsval = [];
            for (var i = 0; i < 10; i++) { argsval.push(obj.getVar(args[i])); }
            var storeInArg0;

            try {
                if (cmdid < 10000) {
                    // Lets run the actual command
                    switch (cmdid) {
                        case 0: // nop
                            break;
                        case 1: // jump(label) or jump(label, a, compare, b)
                            if (argsval[2]) {
                                if (
                                    (argsval[2] == '<' && argsval[1] < argsval[3]) ||
                                    (argsval[2] == '<=' && argsval[1] <= argsval[3]) ||
                                    (argsval[2] == '!=' && argsval[1] != argsval[3]) ||
                                    (argsval[2] == '=' && argsval[1] == argsval[3]) ||
                                    (argsval[2] == '>=' && argsval[1] >= argsval[3]) ||
                                    (argsval[2] == '>' && argsval[1] > argsval[3])
                                ) { obj.ip = argsval[0]; }
                            } else {
                                obj.ip = argsval[0]; // Set the instruction pointer to the new location in the script
                            }
                            break;
                        case 2: // set(variable, value)
                            if (args[1] == undefined) delete obj.variables[args[0]]; else obj.setVar(args[0], argsval[1]);
                            break;
                        case 3: // print(message)
                            if (obj.onConsole) { obj.onConsole(obj.toString(argsval[0]), obj); } else { console.log(obj.toString(argsval[0])); }
                            //  Q(obj.consoleid).value += () + '\n'); Q(obj.console).scrollTop = Q(obj.console).scrollHeight;
                            break;
                        case 4: // dialog(title, content, buttons)
                            obj.state = 2;
                            obj.dialog = true;
                            setDialogMode(11, argsval[0], argsval[2], obj.xxStepDialogOk, argsval[1], obj);
                            break;
                        case 5: // getitem(a, b, c)
                            for (var i in argsval[1]) { if (argsval[1][i][argsval[2]] == argsval[3]) { storeInArg0 = i; } };
                            break;
                        case 6: // substr(variable_dest, variable_src, index, len)
                            storeInArg0 = argsval[1].substr(argsval[2], argsval[3]);
                            break;
                        case 7: // indexOf(variable_dest, variable_src, index, len)
                            storeInArg0 = argsval[1].indexOf(argsval[2]);
                            break;
                        case 8: // split(variable_dest, variable_src, separator)
                            storeInArg0 = argsval[1].split(argsval[2]);
                            break;
                        case 9: // join(variable_dest, variable_src, separator)
                            storeInArg0 = argsval[1].join(argsval[2]);
                            break;
                        case 10: // length(variable_dest, variable_src)
                            storeInArg0 = argsval[1].length;
                            break;
                        case 11: // jsonparse(variable_dest, json)
                            storeInArg0 = JSON.parse(argsval[1]);
                            break;
                        case 12: // jsonstr(variable_dest, variable_src)
                            storeInArg0 = JSON.stringify(argsval[1]);
                            break;
                        case 13: // add(variable_dest, variable_src, value)
                            storeInArg0 = (argsval[1] + argsval[2]);
                            break;
                        case 14: // substract(variable_dest, variable_src, value)
                            storeInArg0 = (argsval[1] - argsval[2]);
                            break;
                        case 15: // parseInt(variable_dest, variable_src)
                            storeInArg0 = parseInt(argsval[1]);
                            break;
                        case 16: // wsbatchenum(name, objectList)
                            obj.state = 2;
                            obj.amtstack.BatchEnum(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
                            break;
                        case 17: // wsput(name, args)
                            obj.state = 2;
                            obj.amtstack.Put(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
                            break;
                        case 18: // wscreate(name, args)
                            obj.state = 2;
                            obj.amtstack.Create(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
                            break;
                        case 19: // wsdelete(name, args)
                            obj.state = 2;
                            obj.amtstack.Delete(argsval[0], argsval[1], obj.xxWsmanReturn, obj);
                            break;
                        case 20: // wsexec(name, method, args, selectors)
                            obj.state = 2;
                            obj.amtstack.Exec(argsval[0], argsval[1], argsval[2], obj.xxWsmanReturn, obj, 0, argsval[3]);
                            break;
                        case 21: // Script Speed
                            obj.stepspeed = argsval[0];
                            if (obj.timer != null) { clearInterval(obj.timer); obj.timer = setInterval(function () { obj.step() }, obj.stepspeed); }
                            break;
                        case 22: // wssubscribe(name, delivery, url, selectors, opaque, user, pass)
                            obj.state = 2;
                            obj.amtstack.Subscribe(argsval[0], argsval[1], argsval[2], obj.xxWsmanReturn, obj, 0, argsval[3], argsval[4], argsval[5], argsval[6]);
                            break;
                        case 23: // wsunsubscribe(name, selectors)
                            obj.state = 2;
                            obj.amtstack.UnSubscribe(argsval[0], obj.xxWsmanReturn, obj, 0, argsval[1]);
                            break;
                        case 24: // readchar(str, pos)
                            console.log(argsval[1], argsval[2], argsval[1].charCodeAt(argsval[2]));
                            storeInArg0 = argsval[1].charCodeAt(argsval[2]);
                            break;
                        case 25: // signWithDummyCa
                            // ###BEGIN###{Certificates}
                            obj.state = 2;
                            // DERKey, xxCaPrivateKey, certattributes, issuerattributes
                            amtcert_signWithCaKey(argsval[0], null, argsval[1], { 'CN': 'Untrusted Root Certificate' }, obj.xxSignWithDummyCaReturn);
                            // ###END###{Certificates}
                            break;
                        default: {
                            obj.state = 9;
                            console.error("Script Error, unknown command: " + cmdid);
                        }
                    }
                } else {
                    if (cmdid < 20000) {
                        // functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
                        storeInArg0 = script_functionTableX2[cmdid - 10000](argsval[1], argsval[2], argsval[3], argsval[4], argsval[5], argsval[6]);
                    } else {
                        // Optional functions of type ARG1 = func(ARG2, ARG3, ARG4, ARG5, ARG6)
                        if (script_functionTableX3 && script_functionTableX3[cmdid - 20000]) {
                            storeInArg0 = script_functionTableX3[cmdid - 20000](obj, argsval[1], argsval[2], argsval[3], argsval[4], argsval[5], argsval[6]); // Note that optional calls start with "obj" as first argument.
                        }
                    }
                }

                if (storeInArg0 != undefined) obj.setVar(args[0], storeInArg0);
            } catch (e) {
                if (typeof e == 'object') { e = e.message; }
                obj.setVar('_exception', e);
            }
        }

        if (obj.state == 1 && obj.ip >= obj.script.length) { obj.state = 0; obj.stop(); }
        if (obj.onStep) obj.onStep(obj);
        return obj;
    }

    obj.xxStepDialogOk = function (button) {
        obj.variables['DialogSelect'] = button;
        obj.state = 1;
        obj.dialog = false;
        if (obj.onStep) obj.onStep(obj);
    }

    // ###BEGIN###{**ClosureAdvancedMode}
    obj.xxWsmanReturnFix = function (x) {
        if (!x || x == null) return;
        if (x.Header) { x['Header'] = x.Header; delete x.Header; }
        if (x.Body) { x['Body'] = x.Body; delete x.Body; }
        if (x.Responses) { x['Responses'] = x.Responses; delete x.Responses; }
        if (x.Response) { x['Response'] = x.Response; delete x.Response; }
        if (x.ReturnValueStr) { x['ReturnValueStr'] = x.ReturnValueStr; delete x.ReturnValueStr; }
    }
    // ###END###{**ClosureAdvancedMode}

    obj.xxWsmanReturn = function (stack, name, responses, status) {
        // ###BEGIN###{**ClosureAdvancedMode}
        // This is required when Google Closure is used
        if (responses) {
            obj.xxWsmanReturnFix(responses);
            for (var i in responses) {
                obj.xxWsmanReturnFix(responses[i]);
                for (var j in responses[i]) { obj.xxWsmanReturnFix(responses[i][j]); }
            }
        }
        // ###END###{**ClosureAdvancedMode}
        obj.setVar(name, responses);
        obj.setVar('wsman_result', status);
        obj.setVar('wsman_result_str', ((httpErrorTable[status]) ? (httpErrorTable[status]) : ('Error #' + status)));
        obj.state = 1;
        if (obj.onStep) obj.onStep(obj);
    }

    // ###BEGIN###{Certificates}
    obj.xxSignWithDummyCaReturn = function (cert) {
        obj.setVar('signed_cert', btoa(_arrayBufferToString(cert)));
        obj.state = 1;
        if (obj.onStep) obj.onStep(obj);
    }
    // ###END###{Certificates}

    obj.toString = function (x) { if (typeof x == 'object') return JSON.stringify(x); return x; }

    obj.reset();
    return obj;
}

// Argument types: 0 = Variable, 1 = String, 2 = Integer, 3 = Label
function script_compile(script, onmsg) {
    var r = '', scriptlines = script.split('\n'), labels = {}, labelswap = [], swaps = [];
    // Go thru each script line and encode it
    for (var i in scriptlines) {
        var scriptline = scriptlines[i];
        if (scriptline.startsWith('##SWAP ')) { var x = scriptline.split(' '); if (x.length == 3) { swaps[x[1]] = x[2]; } } // Add a swap instance
        if (scriptline[0] == '#' || scriptline.length == 0) continue; // Skip comments & blank lines
        for (var x in swaps) { scriptline = scriptline.split(x).join(swaps[x]); } // Apply all swaps
        var keywords = scriptline.match(/"[^"]*"|[^\s"]+/g);
        if (keywords.length == 0) continue; // Skip blank lines
        if (scriptline[0] == ':') { labels[keywords[0].toUpperCase()] = r.length; continue; } // Mark a label position
        var funcIndex = script_functionTable1.indexOf(keywords[0].toLowerCase());
        if (funcIndex == -1) { funcIndex = script_functionTable2.indexOf(keywords[0].toLowerCase()); if (funcIndex >= 0) funcIndex += 10000; }
        if (funcIndex == -1) { funcIndex = script_functionTable3.indexOf(keywords[0].toLowerCase()); if (funcIndex >= 0) funcIndex += 20000; } // Optional methods
        if (funcIndex == -1) { if (onmsg) { onmsg("Unabled to compile, unknown command: " + keywords[0]); } return ''; }
        // Encode CommandId, CmdSize, ArgCount, Arg1Len, Arg1, Arg2Len, Arg2...
        var cmd = ShortToStr(keywords.length - 1);
        for (var j in keywords) {
            if (j == 0) continue;
            if (keywords[j][0] == ':') {
                labelswap.push([keywords[j], r.length + cmd.length + 7]); // Add a label swap
                cmd += ShortToStr(5) + String.fromCharCode(3) + IntToStr(0xFFFFFFFF); // Put an empty label
            } else {
                var argint = parseInt(keywords[j]);
                if (argint == keywords[j]) {
                    cmd += ShortToStr(5) + String.fromCharCode(2) + IntToStr(argint);
                } else {
                    if (keywords[j][0] == '"' && keywords[j][keywords[j].length - 1] == '"') {
                        cmd += ShortToStr(keywords[j].length - 1) + String.fromCharCode(1) + keywords[j].substring(1, keywords[j].length - 1);
                    } else {
                        cmd += ShortToStr(keywords[j].length + 1) + String.fromCharCode(0) + keywords[j];
                    }
                }
            }
        }
        cmd = ShortToStr(funcIndex) + ShortToStr(cmd.length + 4) + cmd;
        r += cmd;
    }
    // Perform all the needed label swaps
    for (i in labelswap) {
        var label = labelswap[i][0].toUpperCase(), position = labelswap[i][1], target = labels[label];
        if (target == undefined) { if (onmsg) { onmsg("Unabled to compile, unknown label: " + label); } return ''; }
        r = r.substr(0, position) + IntToStr(target) + r.substr(position + 4);
    }
    return IntToStr(0x247D2945) + ShortToStr(1) + r;
}

// Decompile the script, intended for debugging only
function script_decompile(binary, onecmd) {
    var r = '', ptr = 6, labelcount = 0, labels = {};
    if (onecmd >= 0) {
        ptr = onecmd; // If we are decompiling just one command, set the ptr to that command.
    } else {
        if (binary.length < 6) { return '# Invalid script length'; }
        var magic = ReadInt(binary, 0);
        var version = ReadShort(binary, 4);
        if (magic != 0x247D2945) { return '# Invalid binary script: ' + magic; }
        if (version != 1) { return '# Invalid script version'; }
    }
    // Loop on each command, moving forward by the command length each time.
    while (ptr < binary.length) {
        var cmdid = ReadShort(binary, ptr);
        var cmdlen = ReadShort(binary, ptr + 2);
        var argcount = ReadShort(binary, ptr + 4);
        var argptr = ptr + 6;
        var argstr = '';
        if (!(onecmd >= 0)) r += ":label" + (ptr - 6) + "\n";
        // Loop on each argument, moving forward by the argument length each time
        for (var i = 0; i < argcount; i++) {
            var arglen = ReadShort(binary, argptr);
            var argval = binary.substring(argptr + 2, argptr + 2 + arglen);
            var argtyp = argval.charCodeAt(0);
            if (argtyp == 0) { argstr += ' ' + argval.substring(1); } // Variable
            else if (argtyp == 1) { argstr += ' \"' + argval.substring(1) + '\"'; } // String
            else if (argtyp == 2) { argstr += ' ' + ReadInt(argval, 1); } // Integer
            else if (argtyp == 3) { // Label
                var target = ReadInt(argval, 1);
                var label = labels[target];
                if (!label) { label = ":label" + target; labels[label] = target; }
                argstr += ' ' + label;
            }
            argptr += (2 + arglen);
        }
        // Go in the script function table to decode the function
        if (cmdid < 10000) {
            r += script_functionTable1[cmdid] + argstr + "\n";
        } else {
            if (cmdid >= 20000) {
                r += script_functionTable3[cmdid - 20000] + argstr + "\n"; // Optional methods
            } else {
                r += script_functionTable2[cmdid - 10000] + argstr + "\n";
            }
        }
        ptr += cmdlen;
        if (onecmd >= 0) return r; // If we are decompiling just one command, exit now
    }
    // Remove all unused labels
    var scriptlines = r.split('\n');
    r = '';
    for (var i in scriptlines) {
        var line = scriptlines[i];
        if (line[0] != ':') { r += line + '\n'; } else { if (labels[line]) { r += line + '\n'; } }
    }
    return r;
}