use std::path::Path; use std::fs::{self, File, OpenOptions}; use std::io::{Write, Cursor, Seek}; use binrw::{BinRead, BinReaderExt}; use crate::utils::common; use crate::utils::aes::{decrypt_aes128_cbc_nopad}; use crate::keys; #[derive(BinRead)] struct Header { #[br(count = 4)] vendor_magic_bytes: Vec, #[br(count = 8)] _mtk_magic: Vec, //#DH@FiRm #[br(count = 60)] version_bytes: Vec, file_size: u32, _platform: u32, #[br(count = 32)] product_name_bytes: Vec, #[br(count = 32)] _unknown: Vec, } impl Header { fn vendor_magic(&self) -> String { common::string_from_bytes(&self.vendor_magic_bytes) } fn version(&self) -> String { common::string_from_bytes(&self.version_bytes) } fn product_name(&self) -> String { common::string_from_bytes(&self.product_name_bytes) } } #[derive(BinRead)] struct PartEntry { #[br(count = 4)] name_bytes: Vec, flags: u32, size: u32, } impl PartEntry { fn name(&self) -> String { common::string_from_bytes(&self.name_bytes) } fn is_valid(&self) -> bool { self.name().is_ascii() } fn is_encrypted(&self) -> bool { (self.flags & 1 << 0) == 1 << 0 } } static HEADER_KEY: [u8; 16] = [ 0x09, 0x29, 0x10, 0x94, 0x09, 0x29, 0x10, 0x94, 0x09, 0x29, 0x10, 0x94, 0x09, 0x29, 0x10, 0x94, ]; static HEADER_IV: [u8; 16] = [0x00; 16]; pub fn is_mtk_pkg_file(file: &File) -> bool { let mut encrypted_header = common::read_file(&file, 0, 144).expect("Failed to read from file."); let mut header = decrypt_aes128_cbc_nopad(&encrypted_header, &HEADER_KEY, &HEADER_IV).expect("Decryption error!"); if &header[4..12] == b"#DH@FiRm" { true } else { // try for philips which has additional 128 bytes at beginning encrypted_header = common::read_file(&file, 128, 144).expect("Failed to read from file."); header = decrypt_aes128_cbc_nopad(&encrypted_header, &HEADER_KEY, &HEADER_IV).expect("Decryption error!"); if &header[4..12] == b"#DH@FiRm" { true } else { false } } } pub fn extract_mtk_pkg(mut file: &File, output_folder: &str) -> Result<(), Box> { let file_size = file.metadata()?.len(); let encrypted_header = common::read_exact(&mut file, 144)?; let header = decrypt_aes128_cbc_nopad(&encrypted_header, &HEADER_KEY, &HEADER_IV)?; let mut hdr_reader = Cursor::new(header); let hdr: Header = hdr_reader.read_le()?; println!("File info:\nFile size: {}\nVendor magic: {}\nVersion info: {}\nProduct name: {}" , hdr.file_size, hdr.vendor_magic(), hdr.version(), hdr.product_name()); let mut part_n = 0; while file.stream_position()? < file_size as u64 { part_n += 1; let part_entry: PartEntry = file.read_le()?; if !part_entry.is_valid() { break } println!("\n#{} - {}, Size: {} {}", part_n, part_entry.name(), part_entry.size, if part_entry.is_encrypted() {"[ENCRYPTED]"} else {""} ); let data = common::read_exact(&mut file, part_entry.size as usize + 48)?; if part_entry.size == 0 { println!("- Empty entry, skipping!"); continue } let mut out_data = Vec::new(); if part_entry.is_encrypted() { let crypted_header = &data[..48]; // try decrypting with vendor magic repeated 4 times (works for most) let mut key = [0u8; 16]; for i in 0..4 { key[i * 4..(i + 1) * 4].copy_from_slice(&hdr.vendor_magic_bytes); } let try_decrypt = decrypt_aes128_cbc_nopad(&crypted_header, &key, &HEADER_IV)?; if try_decrypt.starts_with(b"reserved mtk inc") { println!("- Decrypting with 4xVendor magic..."); out_data = decrypt_aes128_cbc_nopad(&data[..data.len() & !15], &key, &HEADER_IV)?; } else { //try decrypting with one of custom keys let mut decrypted = false; for (key_hex, iv_hex, name) in keys::MTK_PKG_CUST { let key_array: [u8; 16] = hex::decode(key_hex)?.as_slice().try_into()?; let iv_array: [u8; 16] = hex::decode(iv_hex)?.as_slice().try_into()?; let try_decrypt = decrypt_aes128_cbc_nopad(&crypted_header, &key_array, &iv_array)?; if try_decrypt.starts_with(b"reserved mtk inc") { println!("- Decrypting with key {}...", name); out_data = decrypt_aes128_cbc_nopad(&data[..data.len() & !15], &key_array, &iv_array)?; decrypted = true; break } } if !decrypted { println!("- Failed to decrypt data!"); continue } }; } else { out_data = data; } //strip iMtK thing let extra_header_len = if &out_data[48..52] == b"iMtK" { let imtk_len = u32::from_le_bytes(out_data[52..56].try_into().unwrap()); imtk_len + 8 } else { 0 }; let output_path = Path::new(&output_folder).join(part_entry.name() + ".bin"); fs::create_dir_all(&output_folder)?; let mut out_file = OpenOptions::new().write(true).create(true).open(output_path)?; out_file.write_all(&out_data[48 + extra_header_len as usize..])?; println!("-- Saved file!"); } println!("\nExtraction finished!"); Ok(()) }