use std::any::Any; use crate::{InputTarget, AppContext, formats::Format}; pub fn format() -> Format { Format { name: "android_ota_payload", detector_func: is_android_ota_payload_file, extractor_func: extract_android_ota_payload } } use std::fs::{self, OpenOptions}; use std::path::{Path}; use std::io::{Write}; use binrw::{BinRead, BinReaderExt}; use prost::Message; use crate::utils::common; use crate::utils::android_ota_update_metadata::{DeltaArchiveManifest, install_operation}; use crate::utils::compression::{decompress_bzip, decompress_xz}; #[derive(BinRead)] struct Header { #[br(count = 4)] _magic_bytes: Vec, //CrAU file_format_version: u64, manifest_size: u64, metadata_signature_size: u32, } pub fn is_android_ota_payload_file(app_ctx: &AppContext) -> Result>, Box> { let file = match &app_ctx.input {InputTarget::File(f) => f, InputTarget::Directory(_) => return Ok(None)}; let header = common::read_file(&file, 0, 4)?; if header == b"CrAU" { Ok(Some(Box::new(()))) } else { Ok(None) } } pub fn extract_android_ota_payload(app_ctx: &AppContext, _ctx: Option>) -> Result<(), Box> { let mut file = match &app_ctx.input {InputTarget::File(f) => f, InputTarget::Directory(_) => return Err("Extractor expected file, not directory".into())}; let header: Header = file.read_be()?; println!("File info:\nFormat version: {}\nManifest size: {}", header.file_format_version, header.manifest_size); if header.file_format_version != 2 { println!("\nSorry, this version of the file is not supported!"); return Ok(()) } let base_offset = 24 /* size of header */ + header.manifest_size + header.metadata_signature_size as u64; let read_manifest = common::read_exact(&mut file, header.manifest_size as usize)?; let manifest = DeltaArchiveManifest::decode(&*read_manifest)?; for (i, partition) in manifest.partitions.into_iter().enumerate() { let operation_count = partition.operations.len(); println!("\n#{} - {}, Size: {}, Operations: {}", i + 1, partition.partition_name, partition.new_partition_info.unwrap().size.unwrap(), operation_count); for (i, operation) in partition.operations.into_iter().enumerate() { let operation_name_str = match install_operation::Type::try_from(operation.r#type) { Ok(t) => t.as_str_name(), Err(_) => "UNKNOWN", }; let offset = base_offset + operation.data_offset.unwrap(); let size = operation.data_length.unwrap(); //because the amount of operations can reach up to the thousands, i think its best to update the current line //to not clog up the terminal and so you know what the program is actually doing print!("\r- ({}/{}) - {}({}), Offset: {}, Size: {}", i + 1, operation_count, operation_name_str, operation.r#type, offset, size); std::io::stdout().flush()?; let data = common::read_file(&file, offset, size as usize)?; let out_data; if operation.r#type == 0 { //REPLACE - just write the stored data out_data = data; } else if operation.r#type == 1 { //REPLACE_BZ - decompress with bzip and write out_data = decompress_bzip(&data)?; } else if operation.r#type == 8 { //REPLACE_XZ - decompress with xz and write out_data = decompress_xz(&data)?; } else { println!("-- Unsupported operation!"); break } fs::create_dir_all(&app_ctx.output_dir)?; let output_path = Path::new(&app_ctx.output_dir).join(format!("{}.bin", partition.partition_name)); let mut out_file = OpenOptions::new().append(true).create(true).open(output_path)?; out_file.write_all(&out_data)?; } println!("\n-- Saved!"); } println!("\nExtraction finished!"); Ok(()) }