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unixtract/src/formats/msd11.rs
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use std::any::Any;
use crate::{AppContext, formats::Format};
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pub fn format() -> Format {
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Format { name: "msd11", detector_func: is_msd11_file, extractor_func: extract_msd11 }
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}
use std::fs::{self, OpenOptions};
use std::path::{Path};
use std::io::{Write};
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use binrw::{BinRead, BinReaderExt};
use crate::utils::common;
use crate::keys;
use crate::formats::msd::{decrypt_aes_salted_tizen, decrypt_aes_tizen};
use crate::utils::msd_ouith_parser_tizen_1_9::{parse_blob_1_9};
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#[derive(BinRead)]
struct FileHeader {
#[br(count = 6)] _magic_bytes: Vec<u8>,
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_header_checksum: u32, //CRC32 of data with the size of "_header_size"
_header_size: u64,
section_count: u32,
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}
#[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<u8>,
}
impl HeaderEntry {
fn name(&self) -> String {
common::string_from_bytes(&self.name_bytes)
}
}
struct Section {
index: u32,
offset: u64,
size: u64,
}
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pub fn is_msd11_file(app_ctx: &AppContext) -> Result<Option<Box<dyn Any>>, Box<dyn std::error::Error>> {
let file = match app_ctx.file() {Some(f) => f, None => return Ok(None)};
let header = common::read_file(&file, 0, 6)?;
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if header == b"MSDU11" {
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Ok(Some(Box::new(())))
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} else {
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Ok(None)
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}
}
pub fn extract_msd11(app_ctx: &AppContext, _ctx: Box<dyn Any>) -> Result<(), Box<dyn std::error::Error>> {
let mut file = app_ctx.file().ok_or("Extractor expected file")?;
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let header: FileHeader = file.read_le()?;
println!("\nNumber of sections: {}", header.section_count);
let mut sections: Vec<Section> = Vec::new();
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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: u32 = file.read_le()?;
println!("\nNumber of headers: {}", header_count);
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let mut headers: Vec<HeaderEntry> = Vec::new();
for i in 0..header_count {
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let header: HeaderEntry = file.read_le()?;
println!("Header {}: {}, offset: {}, size: {}", i + 1, header.name(), header.offset, header.size);
headers.push(header);
}
//use first header
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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 (items, info) = parse_blob_1_9(&toc)?;
if let Some(info) = info {
println!("\nImage info:\n{} {}.{}",
info.name(), info.major_ver, info.minor_ver);
}
for (i, item) in items.iter().enumerate() {
let size = sections[i as usize].size;
let offset = sections[i as usize].offset;
println!("\n({}/{}) - {}, Size: {}",
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i + 1, items.len(), item.name, size);
assert!(sections[i as usize].index == item.item_id, "Item ID in TOC does not match ID from header!");
let stored_data = common::read_file(&file, offset as u64, size as usize)?;
let out_data;
if item.aes_encryption {
println!("- Decrypting...");
let salt = item.aes_salt.as_ref().ok_or("AES salt missing!")?;
out_data = decrypt_aes_tizen(&stored_data, &passphrase_bytes, salt)?;
} else {
out_data = stored_data;
}
let output_path = Path::new(&app_ctx.output_dir).join(item.name.clone());
fs::create_dir_all(&app_ctx.output_dir)?;
let mut out_file = OpenOptions::new().write(true).create(true).open(output_path)?;
out_file.write_all(&out_data)?;
println!("-- Saved file!");
}
println!("\nExtraction finished!");
Ok(())
}