2025-11-19 23:39:33 +01:00
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use std::fs::File;
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use std::path::Path;
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use std::fs::{self, OpenOptions};
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2025-11-20 18:34:47 +01:00
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use std::io::{Write, Read, Cursor, Seek, SeekFrom};
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2025-11-19 23:39:33 +01:00
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use simd_adler32::adler32;
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use flate2::read::GzDecoder;
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use binrw::{BinRead, BinReaderExt};
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use crate::keys;
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use crate::common;
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use crate::utils::pana_dvd_crypto::{decrypt_data};
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use crate::utils::lzss::{decompress_lzss};
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#[derive(BinRead)]
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struct ModuleEntry {
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#[br(count = 4)] name_bytes: Vec<u8>,
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#[br(count = 4)] version_bytes: Vec<u8>,
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_unk: u32,
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offset: u32,
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#[br(count = 8)] platform_bytes: Vec<u8>,
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_unk1: u16,
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#[br(count = 6)] id_bytes: Vec<u8>,
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size: u32,
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data_checksum: u32,
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_unk2: u32,
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_entry_checksum: u32,
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}
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impl ModuleEntry {
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fn name(&self) -> String {
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common::string_from_bytes(&self.name_bytes)
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}
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fn version(&self) -> String {
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common::string_from_bytes(&self.version_bytes)
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}
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fn platform(&self) -> String {
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common::string_from_bytes(&self.platform_bytes)
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}
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fn id(&self) -> String {
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common::string_from_bytes(&self.id_bytes)
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}
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fn is_valid(&self) -> bool {
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self.name().is_ascii() && self.platform().is_ascii()
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}
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}
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#[derive(BinRead)]
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struct MainListHeader {
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_checksum: u32,
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_unk: u32,
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list_size: u32,
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_unk2: u64,
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}
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impl MainListHeader {
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fn entry_count(&self) -> u32 {
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(&self.list_size - 20) / 8
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}
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}
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#[derive(BinRead)]
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struct MainListEntry {
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size: u32,
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checksum: u32,
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}
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#[derive(BinRead)]
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struct MainEntryHeader {
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#[br(count = 14)] _header_string: Vec<u8>, //EXTRHEADDRV
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compression_type_byte: u16,
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decompressed_size: u32,
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_destination_address: u32,
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compressed_size: u32,
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_unk: u32,
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_footer_offset: u32,
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_base_address: u32,
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_checksum: u32,
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_checksum_flag: u8,
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#[br(count = 19)] _unused: Vec<u8>,
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}
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impl MainEntryHeader {
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fn compression_type(&self) -> &str {
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if self.compression_type_byte == 0 {
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return "Uncompressed"
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} else if self.compression_type_byte == 1 {
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return "GZIP + LZSS"
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} else if self.compression_type_byte == 2 {
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return "LZSS"
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} else {
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return "Unknown"
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}
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}
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}
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pub fn find_key<'a>(key_array: &'a [&'a str], data: &[u8], expected_magic: &[u8]) -> Result<Option<[u8; 8]>, Box<dyn std::error::Error>> {
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for key_hex in key_array {
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let key_bytes = hex::decode(key_hex)?;
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let key_array: [u8; 8] = match key_bytes.as_slice().try_into() {
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Ok(k) => k,
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Err(_) => continue,
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};
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let decrypted = decrypt_data(data, &key_array);
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if decrypted.starts_with(expected_magic) {
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return Ok(Some(key_array));
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}
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}
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Ok(None)
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}
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pub fn is_pana_dvd_file(mut file: &File) -> bool {
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let header = common::read_file(&file, 0, 16).expect("Failed to read from file.");
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if header.starts_with(b"PANASONIC\x00\x00\x00") {
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file.seek(std::io::SeekFrom::Start(48)).expect("Failed to seek"); //skip rest of header
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true
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} else if find_key(&keys::PANA_DVD_KEYONLY, &header, b"PROG").expect("Failed to decrypt header.").is_some() {
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true
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} else {
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false
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}
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}
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fn decompress_gzip(data: &[u8]) -> std::io::Result<Vec<u8>> {
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let mut decoder = GzDecoder::new(data);
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let mut decompressed = Vec::new();
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decoder.read_to_end(&mut decompressed)?;
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Ok(decompressed)
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}
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pub fn extract_pana_dvd(mut file: &File, output_folder: &str) -> Result<(), Box<dyn std::error::Error>> {
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let enc_header = common::read_exact(&mut file, 8192)?;
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let matching_key;
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let header;
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// find the key, knowing that the first entry is always "PROG"
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if let Some(key_array) = find_key(&keys::PANA_DVD_KEYONLY, &enc_header, b"PROG")? {
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println!("Found valid key: {}\n", hex::encode_upper(key_array));
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matching_key = Some(key_array);
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header = decrypt_data(&enc_header, &key_array);
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} else {
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println!("No valid key found!\n");
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return Ok(());
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}
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let matching_key_array = matching_key.as_ref().unwrap();
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let mut hdr_reader = Cursor::new(header);
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let mut modules: Vec<ModuleEntry> = Vec::new();
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for i in 0..100 {
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let entry: ModuleEntry = hdr_reader.read_le()?;
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if !entry.is_valid() {break};
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println!("Module {} - Name: {}, Version: {}, Platform: {}, ID: {}, Offset: {}, Size: {}",
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i + 1, entry.name(), entry.version(), entry.platform(), entry.id(), entry.offset, entry.size);
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if modules.iter().any(|m| m.name() == entry.name()){
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println!("- Duplicate module, skipping!");
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continue
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}
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modules.push(entry);
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}
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2025-11-20 18:34:47 +01:00
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let mut main_offset: Option<u32> = None;
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2025-11-19 23:39:33 +01:00
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for module in modules {
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println!("\nSave module {}, Offset: {}, Size: {}, Expected checksum: {:#010x}",
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module.name(), module.offset, module.size, module.data_checksum);
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2025-11-20 18:34:47 +01:00
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let data = common::read_file(&file, module.offset as u64, module.size as usize)?;
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2025-11-19 23:39:33 +01:00
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let checksum = adler32(&data.as_slice());
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if module.name() == "MAIN" {
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2025-11-20 18:34:47 +01:00
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if checksum == module.data_checksum {
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main_offset = Some(module.offset);
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println!("- Valid MAIN data found - will extract later...");
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continue
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} else {
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println!("- WARNING: Invalid/unsupported MAIN data!")
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}
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2025-11-19 23:39:33 +01:00
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}
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2025-11-20 18:34:47 +01:00
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println!("- Decrypting...");
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let dec_data = decrypt_data(&data, &matching_key_array);
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2025-11-19 23:39:33 +01:00
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let output_path = Path::new(&output_folder).join(format!("{}.bin", module.name()));
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fs::create_dir_all(&output_folder)?;
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let mut out_file = OpenOptions::new().write(true).create(true).open(output_path)?;
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2025-11-20 18:34:47 +01:00
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out_file.write_all(&dec_data)?;
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2025-11-19 23:39:33 +01:00
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2025-11-20 18:34:47 +01:00
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println!("-- Saved file!");
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2025-11-19 23:39:33 +01:00
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}
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2025-11-20 18:34:47 +01:00
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if !main_offset.is_some() {
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println!("\nExtraction finished!");
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2025-11-19 23:39:33 +01:00
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return Ok(())
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}
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println!("\nExtracting MAIN section...");
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2025-11-20 18:34:47 +01:00
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let main_offset_unwrap = main_offset.unwrap();
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file.seek(SeekFrom::Start(main_offset_unwrap as u64))?;
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2025-11-19 23:39:33 +01:00
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2025-11-20 18:34:47 +01:00
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let main_list_hdr: MainListHeader = file.read_le()?;
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2025-11-19 23:39:33 +01:00
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println!("MAIN entry count: {}", main_list_hdr.entry_count());
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let mut main_entries: Vec<MainListEntry> = Vec::new();
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for i in 0..main_list_hdr.entry_count() {
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2025-11-20 18:34:47 +01:00
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let main_entry: MainListEntry = file.read_le()?;
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2025-11-19 23:39:33 +01:00
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println!("- Entry {}/{} - Size: {}, Checksum: {:#010x}",
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i + 1, main_list_hdr.entry_count(), main_entry.size, main_entry.checksum);
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main_entries.push(main_entry);
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}
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for entry in main_entries {
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2025-11-20 18:34:47 +01:00
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let mut data = common::read_exact(&mut file, entry.size as usize)?;
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if entry.size > 5120 {
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//decrypt first and last 5kb
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let first_decrypted = decrypt_data(&data[..5120], &matching_key_array);
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data[..5120].copy_from_slice(&first_decrypted);
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let last_decrypted = decrypt_data(&data[entry.size as usize - 5120..], &matching_key_array);
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data[entry.size as usize - 5120..].copy_from_slice(&last_decrypted);
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//
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} else {
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let decrypted = decrypt_data(&data, &matching_key_array);
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data.copy_from_slice(&decrypted);
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}
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2025-11-19 23:39:33 +01:00
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let mut data_reader = Cursor::new(data);
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let header: MainEntryHeader = data_reader.read_le()?;
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println!("\nSaving entry - Compressed size: {}, Decompressed size: {}, Compression type: {}({})",
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header.compressed_size, header.decompressed_size, header.compression_type_byte, header.compression_type());
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let compressed_data = common::read_exact(&mut data_reader, header.compressed_size as usize)?;
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let decompressed_data;
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if header.compression_type_byte == 1 { //gzip + lzss
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println!("- (1/2) Decompressing GZIP...");
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let decompressed_gzip = decompress_gzip(&compressed_data)?;
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// the decompressed data has another header
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let mut decompressed_gzip_reader = Cursor::new(decompressed_gzip);
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let header: MainEntryHeader = decompressed_gzip_reader.read_le()?;
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println!("- (2/2) Decompressing LZSS... (Compressed size: {}, Decompressed size: {})", header.compressed_size, header.decompressed_size);
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let compressed_lzss = common::read_exact(&mut decompressed_gzip_reader, header.compressed_size as usize)?;
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decompressed_data = decompress_lzss(&compressed_lzss);
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} else if header.compression_type_byte == 2 { //only lzss
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println!("- Decompressing LZSS...");
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decompressed_data = decompress_lzss(&compressed_data);
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} else if header.compression_type_byte == 0 { //no compression. havent encountered one yet
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decompressed_data = compressed_data;
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} else {
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println!("- Unknown compression method!");
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decompressed_data = compressed_data;
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}
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let output_path = Path::new(&output_folder).join("MAIN.bin");
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fs::create_dir_all(&output_folder)?;
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let mut out_file = OpenOptions::new().append(true).create(true).open(output_path)?;
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out_file.write_all(&decompressed_data)?;
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println!("- Saved to MAIN!");
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}
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println!("\nExtraction finished!");
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Ok(())
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}
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