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// Bytecode decompiler for ChatGPT's JavaScript VM
use crate::utils::error::{ChatGptError, Result};
use crate::utils::helpers::Utils;
use base64::{Engine as _, engine::general_purpose};
use serde_json::Value;
use std::collections::HashMap;
/// VM bytecode decompiler
pub struct Decompiler {
/// Opcode to operation name mapping
mapping: HashMap<String, String>,
/// Generated JavaScript code
decompiled: String,
/// Variable value tracking
array_dict: HashMap<String, String>,
// XOR keys
// xor_key: String,
// xor_key2: String,
// State tracking
// found: bool,
}
impl Default for Decompiler {
fn default() -> Self {
let mut mapping = HashMap::new();
// Opcode mapping from Python decompiler
mapping.insert("1".to_string(), "XOR_STR".to_string());
mapping.insert("2".to_string(), "SET_VALUE".to_string());
mapping.insert("3".to_string(), "BTOA".to_string());
mapping.insert("4".to_string(), "BTOA_2".to_string());
mapping.insert("5".to_string(), "ADD_OR_PUSH".to_string());
mapping.insert("6".to_string(), "ARRAY_ACCESS".to_string());
mapping.insert("7".to_string(), "CALL".to_string());
mapping.insert("8".to_string(), "COPY".to_string());
mapping.insert("10".to_string(), "window".to_string());
mapping.insert("11".to_string(), "GET_SCRIPT_SRC".to_string());
mapping.insert("12".to_string(), "GET_MAP".to_string());
mapping.insert("13".to_string(), "TRY_CALL".to_string());
mapping.insert("14".to_string(), "JSON_PARSE".to_string());
mapping.insert("15".to_string(), "JSON_STRINGIFY".to_string());
mapping.insert("17".to_string(), "CALL_AND_SET".to_string());
mapping.insert("18".to_string(), "ATOB".to_string());
mapping.insert("19".to_string(), "BTOA_3".to_string());
mapping.insert("20".to_string(), "IF_EQUAL_CALL".to_string());
mapping.insert("21".to_string(), "IF_DIFF_CALL".to_string());
mapping.insert("22".to_string(), "TEMP_STACK_CALL".to_string());
mapping.insert("23".to_string(), "IF_DEFINED_CALL".to_string());
mapping.insert("24".to_string(), "BIND_METHOD".to_string());
mapping.insert("27".to_string(), "REMOVE_OR_SUBTRACT".to_string());
mapping.insert("29".to_string(), "LESS_THAN".to_string());
mapping.insert("31".to_string(), "INCREMENT".to_string());
mapping.insert("32".to_string(), "DECREMENT_AND_EXEC".to_string());
mapping.insert("33".to_string(), "MULTIPLY".to_string());
mapping.insert("34".to_string(), "MOVE".to_string());
Self {
mapping,
decompiled: "var mem = {};\n".to_string(),
array_dict: HashMap::new(),
// xor_key: String::new(),
// xor_key2: String::new(),
// found: false,
}
}
}
impl Decompiler {
/// Create new decompiler instance
pub fn new() -> Self {
Self::default()
}
/// Decompile VM bytecode to JavaScript
pub fn decompile_vm(turnstile: &str, token: &str) -> Result<String> {
let mut decompiler = Self::new();
// Initialize with browser environment simulation
decompiler.decompiled = r#"const { JSDOM } = require("jsdom");
const dom = new JSDOM("<!DOCTYPE html><p>Hello world</p>", { url: "https://chatgpt.com/" });
const window = dom.window;
var mem = {};
"#
.to_string();
// Decode and XOR the turnstile data
let decoded = general_purpose::STANDARD
.decode(turnstile)
.map_err(|e| ChatGptError::vm_execution(format!("Base64 decode failed: {}", e)))?;
let xor_result = Utils::xor_strings(&String::from_utf8_lossy(&decoded), token);
// Parse bytecode
let bytecode: Value = serde_json::from_str(&xor_result)
.map_err(|e| ChatGptError::vm_execution(format!("JSON parse failed: {}", e)))?;
decompiler.decompile_bytecode(&bytecode)?;
Ok(decompiler.decompiled)
}
/// Decompile bytecode array
fn decompile_bytecode(&mut self, bytecode: &Value) -> Result<()> {
let instructions = bytecode
.as_array()
.ok_or_else(|| ChatGptError::vm_execution("Bytecode is not an array"))?;
for instruction in instructions {
let inst_array = instruction
.as_array()
.ok_or_else(|| ChatGptError::vm_execution("Instruction is not an array"))?;
if inst_array.is_empty() {
continue;
}
let opcode_str: String = if let Some(s) = inst_array[0].as_str() {
s.to_string()
} else if let Some(n) = inst_array[0].as_i64() {
n.to_string()
} else {
return Err(ChatGptError::vm_execution("Invalid opcode"));
};
let opcode = opcode_str.as_str();
let args: Vec<String> = inst_array[1..]
.iter()
.map(|v| match v {
Value::String(s) => s.clone(),
Value::Number(n) => n.to_string(),
Value::Bool(b) => b.to_string(),
Value::Null => "null".to_string(),
_ => v.to_string(),
})
.collect();
self.handle_operation(opcode, &args)?;
}
Ok(())
}
/// Handle a single operation
fn handle_operation(&mut self, opcode: &str, args: &[String]) -> Result<()> {
let operation = self
.mapping
.get(opcode)
.cloned()
.unwrap_or_else(|| format!("UNKNOWN_{}", opcode));
match operation.as_str() {
"SET_VALUE" => self.handle_set_value(args),
"COPY" => self.handle_copy(args),
"XOR_STR" => self.handle_xor(args),
"ARRAY_ACCESS" => self.handle_array_access(args),
"ADD_OR_PUSH" => self.handle_add_or_push(args),
"CALL" => self.handle_call(args),
"JSON_STRINGIFY" => self.handle_json_stringify(args),
"IF_DEFINED_CALL" => self.handle_if_defined_call(args),
"BTOA_3" => self.handle_btoa3(args),
_ => self.handle_generic(operation.as_str(), args),
}
}
fn handle_set_value(&mut self, args: &[String]) -> Result<()> {
if args.len() < 2 {
return Ok(());
}
let var_name = args[0].replace('.', "_");
let value = &args[1];
if value == "[]" {
self.decompiled
.push_str(&format!("var var_{} = [];\n", var_name));
self.array_dict.insert(args[0].clone(), "[]".to_string());
} else if value == "None" || value == "null" {
self.decompiled
.push_str(&format!("var var_{} = null;\n", var_name));
self.array_dict.insert(args[0].clone(), "null".to_string());
} else if let Ok(num) = value.parse::<f64>() {
if num.fract() == 0.0 {
self.decompiled
.push_str(&format!("var var_{} = {};\n", var_name, num as i64));
} else {
self.decompiled
.push_str(&format!("var var_{} = {};\n", var_name, num));
}
self.array_dict.insert(args[0].clone(), value.clone());
} else {
self.decompiled
.push_str(&format!("var var_{} = \"{}\";\n", var_name, value));
self.array_dict
.insert(args[0].clone(), format!("\"{}\"", value));
}
Ok(())
}
fn handle_copy(&mut self, args: &[String]) -> Result<()> {
if args.len() < 2 {
return Ok(());
}
let dest = args[0].replace('.', "_");
let src = args[1].replace('.', "_");
self.decompiled
.push_str(&format!("var var_{} = var_{};\n", dest, src));
Ok(())
}
fn handle_xor(&mut self, args: &[String]) -> Result<()> {
if args.len() < 2 {
return Ok(());
}
let var_name = args[0].replace('.', "_");
let key_name = args[1].replace('.', "_");
// Track potential XOR keys
self.decompiled.push_str(&format!(
"var var_{} = XOR_STR(var_{}, var_{});\n",
var_name, var_name, key_name
));
Ok(())
}
fn handle_array_access(&mut self, args: &[String]) -> Result<()> {
if args.len() < 3 {
return Ok(());
}
let dest = args[0].replace('.', "_");
let arr = args[1].replace('.', "_");
let idx = args[2].replace('.', "_");
self.decompiled
.push_str(&format!("var var_{} = var_{}[var_{}];\n", dest, arr, idx));
Ok(())
}
fn handle_add_or_push(&mut self, args: &[String]) -> Result<()> {
if args.len() < 2 {
return Ok(());
}
let var_name = args[0].replace('.', "_");
let arg_name = args[1].replace('.', "_");
self.decompiled.push_str(&format!(
"var var_{} = Array.isArray(var_{}) ? (var_{}.push(var_{}), var_{}) : var_{} + var_{};\n",
var_name, var_name, var_name, arg_name, var_name, var_name, arg_name
));
Ok(())
}
fn handle_call(&mut self, args: &[String]) -> Result<()> {
if args.is_empty() {
return Ok(());
}
let func = args[0].replace('.', "_");
let call_args: Vec<String> = args[1..]
.iter()
.map(|a| format!("var_{}", a.replace('.', "_")))
.collect();
self.decompiled
.push_str(&format!("var_{}({});\n", func, call_args.join(", ")));
Ok(())
}
fn handle_json_stringify(&mut self, args: &[String]) -> Result<()> {
if args.is_empty() {
return Ok(());
}
let var_name = args[0].replace('.', "_");
self.decompiled.push_str(&format!(
"var var_{} = JSON.stringify(var_{});\n",
var_name, var_name
));
Ok(())
}
fn handle_if_defined_call(&mut self, _args: &[String]) -> Result<()> {
// Simplified implementation - track XOR key usage
self.decompiled.push_str("// IF_DEFINED_CALL\n");
Ok(())
}
fn handle_btoa3(&mut self, args: &[String]) -> Result<()> {
if args.is_empty() {
return Ok(());
}
let var_name = args[0].replace('.', "_");
self.decompiled.push_str(&format!(
"var var_{} = btoa(\"\" + var_{});\n",
var_name, var_name
));
Ok(())
}
fn handle_generic(&mut self, operation: &str, args: &[String]) -> Result<()> {
let args_str = args.join(", ");
self.decompiled
.push_str(&format!("// {}: {}\n", operation, args_str));
Ok(())
}
}
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