Files
unixtract/src/formats/mstar.rs
T

184 lines
6.9 KiB
Rust

use std::any::Any;
use crate::{AppContext, formats::Format};
pub fn format() -> Format {
Format { name: "mstar", detector_func: is_mstar_file, extractor_func: extract_mstar }
}
use std::fs::{self, OpenOptions};
use std::path::{Path};
use std::io::{Write};
use crate::utils::common;
use crate::utils::compression::{decompress_lzma, decompress_lz4};
use crate::utils::lzop::{unlzop_to_file};
use crate::utils::sparse::{unsparse_to_file};
pub fn is_mstar_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, 32768)?;
let header_string = String::from_utf8_lossy(&header);
if header_string.contains("filepartload"){
Ok(Some(Box::new(())))
} else {
Ok(None)
}
}
fn parse_number(s: &str) -> Option<u64> {
if let Some(hex_str) = s.strip_prefix("0x") {
u64::from_str_radix(hex_str, 16).ok()
} else {
u64::from_str_radix(s, 16).ok()
}
}
pub fn extract_mstar(app_ctx: &AppContext, _ctx: Box<dyn Any>) -> Result<(), Box<dyn std::error::Error>> {
let file = app_ctx.file().ok_or("Extractor expected file")?;
let mut script = common::read_file(&file, 0, 32768)?;
if let Some(pos) = script.iter().position(|x| [0x00, 0xFF].contains(x)) {
script.truncate(pos);
}
let mut script_string = String::from_utf8_lossy(&script);
//println!("{}", script_string);
if script_string == "" {
//try for hisense
println!("Failed to get script at 0x0, trying 0x1000...");
script = common::read_file(&file, 4096, 32768)?;
if let Some(pos) = script.iter().position(|x| [0x00, 0xFF].contains(x)) {
script.truncate(pos);
}
script_string = String::from_utf8_lossy(&script);
if script_string == "" {
println!("Failed to get script.");
}
}
let lines: Vec<&str> = script_string.lines().map(|l| l.trim()).collect();
let mut i = 0;
for line in &lines {
if line.starts_with("filepartload") {
let parts: Vec<&str> = line.split_whitespace().collect();
let offset = parse_number(parts[3]).unwrap_or(0);
let size = parse_number(parts[4]).unwrap_or(0);
//try to get partname from comment
//let mut partname = if let Some(idx) = line.find('#') {
// line[idx + 1..].trim()
//} else {
// "unknown"
//};
let mut partname = "unknown";
let mut compression = "none";
let mut lz4_expect_size = 0;
let mut j = i + 1;
// get lines after this filepartload, before the next one
while j < lines.len() && !lines[j].starts_with("filepartload") {
//get compression method
if lines[j].starts_with("mscompress7"){
if compression == "none" {
compression = "lzma";
} else if compression == "lzma" {
//thank the turks
compression = "double_lzma";
}
}
if lines[j].starts_with("lz4"){
compression = "lz4";
let parts: Vec<&str> = lines[j].split_whitespace().collect();
lz4_expect_size = parse_number(parts[5]).unwrap_or(0);
}
if lines[j].starts_with("mmc unlzo"){
compression = "lzo";
let parts: Vec<&str> = lines[j].split_whitespace().collect();
// get part name from mmc unlzo
if partname == "unknown" {
partname = parts[4]
}
}
if lines[j].starts_with("sparse_write"){
compression = "sparse"; //its not really compression but anyway
let parts: Vec<&str> = lines[j].split_whitespace().collect();
// get part name from sparse_write
if partname == "unknown" {
partname = parts[3]
}
}
// check if its boot partition
if lines[j].starts_with("mmc write.boot") {
if partname == "unknown" {
partname = "_mmc_boot"
}
}
// try to get partname from nand/mmc/ubi writes
if lines[j].starts_with("mmc write") | lines[j].starts_with("nand write") | lines[j].starts_with("ubi write"){
let parts: Vec<&str> = lines[j].split_whitespace().collect();
if partname == "unknown" {
partname = parts[3]
}
}
j += 1;
}
println!("\nPart - Offset: {}, Size: {} --> {}", offset, size, partname);
if partname == "unknown" {
println!("- Unknown destination, skipping!");
} else {
let data = common::read_file(&file, offset, size.try_into().unwrap())?;
let out_data;
let output_path = Path::new(&app_ctx.output_dir).join(format!("{}.bin", partname));
if compression == "lzma" {
println!("- Decompressing LZMA...");
out_data = decompress_lzma(&data)?;
} else if compression == "double_lzma" {
println!("- Decompressing LZMA (Pass 1)...");
let pass_1 = decompress_lzma(&data)?;
println!("- Decompressing LZMA (Pass 2)...");
out_data = decompress_lzma(&pass_1)?;
} else if compression == "lz4" {
println!("- Decompressing lz4, expected size: {}", lz4_expect_size);
out_data = decompress_lz4(&data, lz4_expect_size.try_into().unwrap())?;
} else if compression == "lzo" {
println!("- Decompessing LZO..");
unlzop_to_file(&data, output_path)?;
println!("-- Saved file!");
i += 1;
continue
} else if compression == "sparse" {
println!("- Unsparsing...");
unsparse_to_file(&data, output_path)?;
println!("-- Saved file!");
i += 1;
continue
} else {
out_data = data;
}
fs::create_dir_all(&app_ctx.output_dir)?;
let mut out_file = OpenOptions::new().append(true).create(true).open(output_path)?;
out_file.write_all(&out_data)?;
println!("-- Saved file!");
}
}
i += 1;
}
println!();
println!("Extraction finished!");
Ok(())
}