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unixtract/src/formats/epk2.rs
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use std::fs::{self, File, OpenOptions};
use std::path::{Path};
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use std::io::{Write, Seek, SeekFrom, Cursor};
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use aes::Aes128;
use ecb::{Decryptor, cipher::{BlockDecryptMut, KeyInit, generic_array::GenericArray}};
use crate::common;
use crate::keys;
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pub fn is_epk2_file(file: &File) -> bool {
let header = common::read_file(&file, 128, 4).expect("Failed to read from file.");
if header == b"epak" {
true
} else {
false
}
}
struct Pak {
offset: u32,
size: u32,
name: String,
}
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fn find_key<'a>(data: &[u8], expected_magic: &[u8]) -> Result<Option<(&'a str, Vec<u8>)>, Box<dyn std::error::Error>> {
for (key_hex, name) in keys::EPK2 {
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let key_bytes = hex::decode(key_hex)?;
let decrypted = match decrypt_aes128_ecb(&key_bytes, data) {
Ok(d) => d,
Err(_) => continue,
};
if decrypted.starts_with(expected_magic) {
return Ok(Some((name, key_bytes)));
}
}
Ok(None)
}
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type Aes128EcbDec = Decryptor<Aes128>;
fn decrypt_aes128_ecb(key: &[u8], ciphertext: &[u8]) -> Result<Vec<u8>, Box<dyn std::error::Error>> {
let key_array: [u8; 16] = key.try_into()?;
let mut decryptor = Aes128EcbDec::new(&key_array.into());
let mut buffer = ciphertext.to_vec();
for chunk in buffer.chunks_exact_mut(16) {
let block: &mut [u8; 16] = chunk.try_into()?;
decryptor.decrypt_block_mut(GenericArray::from_mut_slice(block));
}
Ok(buffer)
}
pub fn extract_epk2(mut file: &File, output_folder: &str) -> Result<(), Box<dyn std::error::Error>> {
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file.seek(SeekFrom::Start(128))?; //inital signature
let stored_header = common::read_exact(&mut file, 1584)?; //max header size
let header;
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let mut matching_key: Option<Vec<u8>> = None;
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//check if header is encrypted
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let epak = &stored_header[0..4]; // epak magic
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if epak == b"epak" {
println!("Header is not encrypted.");
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header = stored_header;
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} else {
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println!("Header is encrypted...");
println!("\nFinding key...");
//find the key, knowing that the header should start with "epak"
if let Some((key_name, key_bytes)) = find_key(&stored_header, b"epak")? {
println!("Found valid key: {}", key_name);
matching_key = Some(key_bytes);
header = decrypt_aes128_ecb(matching_key.as_ref().unwrap(), &stored_header)?;
} else {
println!("No valid key found!");
return Ok(());
}
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}
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//parse header
let mut hdr_reader = Cursor::new(header);
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let _epk = common::read_exact(&mut hdr_reader, 4)?;
let file_size_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let file_size = u32::from_le_bytes(file_size_bytes.try_into().unwrap());
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let pak_count_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let pak_count = u32::from_le_bytes(pak_count_bytes.try_into().unwrap());
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let _epk2 = common::read_exact(&mut hdr_reader, 4)?; // EPK2 magic
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let version = common::read_exact(&mut hdr_reader, 4)?;
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let ota_id_bytes = common::read_exact(&mut hdr_reader, 32)?;
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let ota_id = common::string_from_bytes(&ota_id_bytes);
println!("\nEPK info:\nFile size: {}\nPak count: {}\nOTA ID: {}\nVersion: {:02x?}.{:02x?}.{:02x?}\n",
file_size, pak_count, ota_id, version[3], version[2], version[1]);
let mut paks: Vec<Pak> = Vec::new();
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//parse paks in header
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for i in 0..pak_count {
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let offset_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let offset = u32::from_le_bytes(offset_bytes.try_into().unwrap()) + 128; //add 128 bytes of initial signature
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let size_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let size = u32::from_le_bytes(size_bytes.try_into().unwrap());
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let name_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let name = common::string_from_bytes(&name_bytes);
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let _version = common::read_exact(&mut hdr_reader, 4)?;
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let segment_size_bytes = common::read_exact(&mut hdr_reader, 4)?;
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let segment_size = u32::from_le_bytes(segment_size_bytes.try_into().unwrap());
println!("Pak {}: {}, offset: {}, size: {}, segment size: {}", i + 1, name, offset, size, segment_size);
paks.push(Pak { offset, size, name });
}
let mut signature_count = 0;
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//extract paks
for (pak_n, pak) in paks.iter().enumerate() {
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let actual_offset = pak.offset + (128 * signature_count);
file.seek(SeekFrom::Start(actual_offset as u64))?;
let _signature = common::read_exact(&mut file, 128)?;
signature_count += 1;
let encrypted_header = common::read_exact(&mut file, 128)?;
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//the file's header was not encrypted so we dont have the key yet
if matching_key.is_none() {
println!("\nFinding key...");
//find the key, knowing that the header should start with with the paks name
if let Some((key_name, key_bytes)) = find_key(&encrypted_header, pak.name.as_bytes())? {
println!("Found correct key: {}", key_name);
matching_key = Some(key_bytes);
} else {
println!("No valid key found!");
return Ok(());
}
}
let matching_key_bytes = matching_key.as_ref().unwrap();
let header = decrypt_aes128_ecb(&matching_key_bytes, &encrypted_header)?;
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let segment_count = u32::from_le_bytes(header[84..88].try_into().unwrap());
let mut segment_size = u32::from_le_bytes(header[88..92].try_into().unwrap());
println!("\nPak {}/{} - {}, Size: {}, Segments: {}", pak_n + 1, paks.len(), pak.name, pak.size, segment_count);
for i in 0..segment_count {
// for first segment we already read the header so skip doing that for it
if i > 0 {
let _signature = common::read_exact(&mut file, 128)?;
signature_count += 1;
let encrypted_header = common::read_exact(&mut file, 128)?;
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let header = decrypt_aes128_ecb(&matching_key_bytes, &encrypted_header)?;
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segment_size = u32::from_le_bytes(header[88..92].try_into().unwrap());
}
let actual_segment_size =
// check if this is the last segment and not the last PAK
if i == segment_count - 1 && pak_n < paks.len() - 1 {
// calculate distance to next PAK
let next_pak_offset = &paks[pak_n + 1].offset + (128 * signature_count);
let current_pos = file.stream_position()?;
let distance = next_pak_offset - current_pos as u32;
// if distance less than segment size, use the distance as actual size
if distance < segment_size {
distance
} else {
segment_size
}
} else {
segment_size
};
let segment_data = common::read_exact(&mut file, actual_segment_size as usize)?;
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let out_data = decrypt_aes128_ecb(&matching_key_bytes, &segment_data)?;
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println!("- Segment {}/{}, size: {}", i + 1, segment_count, actual_segment_size);
let output_path = Path::new(&output_folder).join(pak.name.clone() + ".bin");
fs::create_dir_all(&output_folder)?;
let mut out_file = OpenOptions::new()
.append(true)
.create(true)
.open(output_path)?;
out_file.write_all(&out_data)?;
println!("-- Saved to file!");
}
}
println!("\nExtraction finished!");
Ok(())
}