import random import string import base64 import json import hashlib import re from .parser import Lexer, Parser class LuauVMObfuscator: def __init__(self): self.opcodes = [ "MOVE", "LOADK", "LOADBOOL", "LOADNIL", "GETGLOBAL", "SETGLOBAL", "GETTABLE", "SETTABLE", "NEWTABLE", "SELF", "ADD", "SUB", "MUL", "DIV", "MOD", "POW", "UNM", "NOT", "LEN", "CONCAT", "JMP", "EQ", "LT", "LE", "TEST", "TESTSET", "CALL", "TAILCALL", "RETURN", "FORLOOP", "FORPREP", "TFORLOOP", "SETLIST", "CLOSE", "CLOSURE", "VARARG" ] self.k1 = random.randint(100, 500) self.k2 = random.randint(100, 500) self.k3 = random.randint(100, 500) self.op_to_id = {name: (((self.opcodes.index(name) + self.k1) ^ self.k2) + self.k3) % 4096 for name in self.opcodes} self.var_map = {} self.used_vars = set() def get_var(self, hint="var"): if hint in self.var_map: return self.var_map[hint] chars = "lI" length = random.randint(8, 16) # Shorter vars for single-line efficiency new_var = "_" + "".join(random.choice(chars) for _ in range(length)) while new_var in self.used_vars: new_var = "_" + "".join(random.choice(chars) for _ in range(length)) self.used_vars.add(new_var) self.var_map[hint] = new_var return new_var def to_expr(self, n, depth=0): if depth > 1 or (depth > 0 and random.random() < 0.5): return str(n) r = random.randint(1, 50) choice = random.choice(['add', 'sub', 'xor']) if choice == 'add': return f"({self.to_expr(n - r, depth + 1)} + {self.to_expr(r, depth + 1)})" elif choice == 'sub': return f"({self.to_expr(n + r, depth + 1)} - {self.to_expr(r, depth + 1)})" elif choice == 'xor': return f"bit32.bxor({self.to_expr(n ^ r, depth + 1)}, {self.to_expr(r, depth + 1)})" return str(n) def encrypt_string(self, s, key): res = [] last = key % 256 for i, c in enumerate(s): k = (key + i + last) % 256 last = ord(c) res.append(chr(ord(c) ^ k)) return "".join(res) def minify(self, code): # Remove comments (though we don't add them, just in case) code = re.sub(r'--.*', '', code) # Replace multiple spaces with single space code = re.sub(r'\s+', ' ', code) # Remove spaces around operators and delimiters where safe for op in ['==', '~=', '<=', '>=', '=', r'\+', '-', r'\*', '/', '>', '<', r'\(', r'\)', r'\{', r'\}', r'\[', r'\]', ',', ';', ':']: code = re.sub(r'\s*' + op + r'\s*', op.replace('\\', ''), code) return code.strip() def generate_vm_source(self, bytecode): raw_instructions = bytecode['instructions'] shuffled = [] indices = list(range(len(raw_instructions))) random.shuffle(indices) pos_map = {orig: shuffled_idx for shuffled_idx, orig in enumerate(indices)} final_insts = [None] * len(raw_instructions) for i, orig_idx in enumerate(indices): inst = raw_instructions[orig_idx] next_shuffled = pos_map[orig_idx + 1] if orig_idx + 1 < len(raw_instructions) else 0 packed = [ inst[0] & 0xFF, (inst[0] >> 8) & 0xFF, inst[1], inst[2], inst[3], next_shuffled & 0xFF, (next_shuffled >> 8) & 0xFF ] final_insts[i] = packed inst_str = "".join(chr(i) for inst in final_insts for i in inst) inst_b64 = base64.b64encode(inst_str.encode('latin-1')).decode() encrypted_consts = [] salt = random.randint(1000, 9999) for i, c in enumerate(bytecode['constants']): if c['type'] == 'string': key = (i * 149 + salt) % 256 enc_val = self.encrypt_string(c['value'], key) encrypted_consts.append({"t": 1, "v": base64.b64encode(enc_val.encode('latin-1')).decode()}) else: encrypted_consts.append({"t": 2, "v": c['value']}) consts_json = json.dumps(encrypted_consts) start_idx = pos_map[0] V_LUA_ENV = self.get_var("lua_env") V_BIT = self.get_var("bit32") V_B64 = self.get_var("b64") V_D = self.get_var("decode") V_INST = self.get_var("inst_raw") V_CONSTS = self.get_var("consts") V_SALT = self.get_var("salt") V_EXEC = self.get_var("execute") V_REGS = self.get_var("registers") V_CURR = self.get_var("current") V_RUN = self.get_var("running") V_GETC = self.get_var("get_const") V_PTR = self.get_var("ptr") V_OP = self.get_var("op") V_A = self.get_var("a") V_B = self.get_var("b") V_C = self.get_var("c") V_KEY = self.get_var("key") V_RES = self.get_var("res") V_LAST = self.get_var("last") vm_lua = f"""local {V_LUA_ENV}=getfenv() local {V_BIT}=bit32 local {V_B64}='ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/' local {V_D}=function(data) data=string.gsub(data,'[^'..{V_B64}..'=]') return(data:gsub('.',function(x) if(x=='=')then return''end local r,f='',({V_B64}:find(x)-1) for i=6,1,-1 do r=r..(f%2^i-f%2^(i-1)>0 and'1'or'0')end return r; end):gsub('%d%d%d%d%d%d%d%d',function(x) local r=0 for i=1,8 do r=r+(x:sub(i,i)=='1'and 2^(8-i)or 0)end return string.char(r) end)) end local {V_INST}={V_D}('{inst_b64}') local {V_CONSTS}=game:GetService("HttpService"):JSONDecode('{consts_json}') local {V_SALT}={self.to_expr(salt)} local function {V_EXEC}() local {V_REGS}={{}} local {V_CURR}={self.to_expr(start_idx)} local {V_RUN}=true local function {V_GETC}(idx) local c={V_CONSTS}[idx+1] if not c then return nil end if c.t=={self.to_expr(1)} then local raw={V_D}(c.v) local {V_KEY}=(idx*{self.to_expr(149)}+{V_SALT})%256 local {V_RES}={{}} local {V_LAST}={V_KEY}%256 for i=1,#raw do local k=({V_KEY}+i+{V_LAST}-1)%256 local b=string.byte(raw,i) local char_code={V_BIT}.bxor(b,k) {V_RES}[i]=string.char(char_code) {V_LAST}=char_code end return table.concat({V_RES}) end return c.v end while {V_RUN} do local {V_PTR}={V_CURR}*7+1 local op_l=string.byte({V_INST},{V_PTR}) local op_h=string.byte({V_INST},{V_PTR}+1) local {V_A}=string.byte({V_INST},{V_PTR}+2) local {V_B}=string.byte({V_INST},{V_PTR}+3) local {V_C}=string.byte({V_INST},{V_PTR}+4) local next_l=string.byte({V_INST},{V_PTR}+5) local next_h=string.byte({V_INST},{V_PTR}+6) {V_CURR}=next_l+(next_h*256) local op_raw=op_l+(op_h*256) local {V_OP}=({V_BIT}.bxor(op_raw,{self.to_expr(self.k2)})-{self.to_expr(self.k1)})-{self.to_expr(self.k3)} if {V_OP}=={self.opcodes.index('MOVE')} then {V_REGS}[{V_A}]={V_REGS}[{V_B}] elseif {V_OP}=={self.opcodes.index('LOADK')} then {V_REGS}[{V_A}]={V_GETC}({V_B}) elseif {V_OP}=={self.opcodes.index('GETGLOBAL')} then {V_REGS}[{V_A}]={V_LUA_ENV}[{V_GETC}({V_B})] elseif {V_OP}=={self.opcodes.index('SETGLOBAL')} then {V_LUA_ENV}[{V_GETC}({V_B})]={V_REGS}[{V_A}] elseif {V_OP}=={self.opcodes.index('CALL')} then local f={V_REGS}[{V_A}] local args={{}} if {V_B}>1 then for i=1,{V_B}-1 do args[i]={V_REGS}[{V_A}+i] end end local res={{f(unpack(args))}} if {V_C}>1 then for i=1,{V_C}-1 do {V_REGS}[{V_A}+i-1]=res[i] end end elseif {V_OP}=={self.opcodes.index('RETURN')} then {V_RUN}=false end end end task.spawn({V_EXEC})""" return self.minify(vm_lua) def compile_to_bytecode(self, ast): constants = [] instructions = [] locals_map = {} next_reg = 0 def add_const(val): if isinstance(val, str): s_q = chr(39); d_q = chr(34) if (val.startswith(s_q) and val.endswith(s_q)) or (val.startswith(d_q) and val.endswith(d_q)): val = val[1:-1] for i, c in enumerate(constants): if c['value'] == val: return i t = 'string' if isinstance(val, str) else 'number' constants.append({'type': t, 'value': val}) return len(constants) - 1 def load_expr_to_reg(expr, reg): if expr['type'] == 'IDENT': if expr['value'] in locals_map: instructions.append([self.op_to_id["MOVE"], reg, locals_map[expr['value']], 0]) else: instructions.append([self.op_to_id["GETGLOBAL"], reg, add_const(expr['value']), 0]) elif expr['type'] in ['STRING', 'NUMBER']: val = expr['value'] if expr['type'] == 'NUMBER': try: val = float(val) except: pass instructions.append([self.op_to_id["LOADK"], reg, add_const(val), 0]) for node in ast: if node['type'] == 'call': func_reg = next_reg if node['name'] in locals_map: instructions.append([self.op_to_id["MOVE"], func_reg, locals_map[node['name']], 0]) else: instructions.append([self.op_to_id["GETGLOBAL"], func_reg, add_const(node['name']), 0]) for i, arg_expr in enumerate(node['args']): load_expr_to_reg(arg_expr, func_reg + 1 + i) instructions.append([self.op_to_id["CALL"], func_reg, len(node['args']) + 1, 1]) elif node['type'] == 'assign': val_reg = next_reg load_expr_to_reg(node['value'], val_reg) if node.get('local'): locals_map[node['name']] = val_reg next_reg += 1 else: instructions.append([self.op_to_id["SETGLOBAL"], val_reg, add_const(node['name']), 0]) instructions.append([self.op_to_id["RETURN"], 0, 0, 0]) return {"instructions": instructions, "constants": constants} def obfuscate(self, code): if not code.strip(): return "" try: lexer = Lexer(code) tokens = lexer.tokenize() parser = Parser(tokens) ast = parser.parse() if not ast: return "" bytecode = self.compile_to_bytecode(ast) return self.generate_vm_source(bytecode) except Exception: return "-- Obfuscation Error" def obfuscate(code): return LuauVMObfuscator().obfuscate(code)