use std::fs::{self, File, OpenOptions}; use std::path::{Path}; use std::io::{Cursor, Write, Seek, SeekFrom}; use binrw::{BinRead, BinReaderExt}; use crate::common; use crate::keys; use crate::formats::msd::{decrypt_aes_salted_tizen, decrypt_aes_tizen}; #[derive(BinRead)] struct FileHeader { #[br(count = 6)] _magic_bytes: Vec, #[br(count = 12)] _unk: Vec, section_count: u32 } #[derive(BinRead)] struct SectionEntry { index: u32, offset: u64, size: u64, } #[derive(BinRead)] struct HeaderEntry { offset: u64, size: u32, _name_length: u8, #[br(count = _name_length)] name_bytes: Vec, } impl HeaderEntry { fn name(&self) -> String { common::string_from_bytes(&self.name_bytes) } } struct Section { index: u32, offset: u64, size: u64, } #[derive(BinRead)] struct TocEntry { #[br(count = 74)] _unk1: Vec, _name_length: u8, #[br(count = _name_length)] name_bytes: Vec, #[br(count = 39)] _unk2: Vec, #[br(count = 8)] salt: Vec, #[br(count = 267)] _unk3: Vec, } impl TocEntry { fn name(&self) -> String { common::string_from_bytes(&self.name_bytes) } } pub fn is_msd11_file(file: &File) -> bool { let header = common::read_file(&file, 0, 6).expect("Failed to read from file."); if header == b"MSDU11" { true } else { false } } pub fn extract_msd11(mut file: &File, output_folder: &str) -> Result<(), Box> { let header: FileHeader = file.read_le()?; println!("\nNumber of sections: {}", header.section_count); let mut sections: Vec
= Vec::new(); for _i in 0..header.section_count { let section: SectionEntry = file.read_le()?; println!("Section {}: offset: {}, size: {}", section.index, section.offset, section.size); sections.push(Section {index: section.index, offset: section.offset, size: section.size}); } let header_count_bytes = common::read_exact(&mut file, 4)?; let header_count = u32::from_le_bytes(header_count_bytes.try_into().unwrap()); println!("\nNumber of headers: {}", header_count); let mut headers: Vec = Vec::new(); for i in 0..header_count { let header: HeaderEntry = file.read_le()?; println!("Header {}: {}, offset: {}, size: {}", i + 1, header.name(), header.offset, header.size); headers.push(header); } //use first header let firmware_name = &headers[0].name(); println!("\nFirmware name: {}", firmware_name); let mut passphrase: Option<&str> = None; let passphrase_bytes; //find passphrase for (prefix, value) in keys::MSD11 { if firmware_name.starts_with(prefix) { passphrase = Some(value); break; } } if let Some(p) = passphrase { println!("Passphrase: {}", p); passphrase_bytes = hex::decode(p)?; } else { println!("Sorry, this firmware is not supported!"); std::process::exit(1); } let toc_offset = headers[0].offset + 8; let toc_size = headers[0].size - 8; let toc_data = common::read_file(&file, toc_offset as u64, toc_size as usize)?; let toc = decrypt_aes_salted_tizen(&toc_data, &passphrase_bytes)?; let mut toc_reader = Cursor::new(toc); toc_reader.seek(SeekFrom::Current(262))?; // probably signature toc_reader.seek(SeekFrom::Current(50))?; // Tizen Software Upgrade Tree Binary Format ver. 1.9 for i in 0..header.section_count { let entry: TocEntry = toc_reader.read_le()?; println!("\nSection {}: {}", sections[i as usize].index, entry.name()); let offset = sections[i as usize].offset; let size = sections[i as usize].size; let encrypted_data = common::read_file(&file, offset as u64, size as usize)?; println!("- Decrypting..."); let decrypted_data = decrypt_aes_tizen(&encrypted_data, &passphrase_bytes, &entry.salt)?; let output_path = Path::new(&output_folder).join(entry.name()); fs::create_dir_all(&output_folder)?; let mut out_file = OpenOptions::new() .write(true) .create(true) .open(output_path)?; out_file.write_all(&decrypted_data)?; println!("-- Saved file!"); } println!("\nExtraction finished!"); Ok(()) }