This is a cross-platform detour library developed in Rust. Beyond the basic functionality, this library handles branch redirects, RIP-relative instructions, hot-patching, NOP-padded functions, and allows the original function to be called using a trampoline whilst hooked.
This is one of few cross-platform detour libraries that exists, and to maintain this feature, not all desired functionality can be supported due to lack of cross-platform APIs. Therefore EIP relocation is not supported.
NOTE: Nightly is currently required for static_detour!
and is enabled by
default.
This library provides CI for these targets:
- Linux
i686-unknown-linux-gnu
x86_64-unknown-linux-gnu
x86_64-unknown-linux-musl
- Windows
i686-pc-windows-gnu
i686-pc-windows-msvc
x86_64-pc-windows-gnu
x86_64-pc-windows-msvc
- macOS
i686-apple-darwin
x86_64-apple-darwin
Add this to your Cargo.toml
:
[dependencies]
detour = "0.8.0"
- A static detour (one of three different detours):
use std::error::Error;
use detour::static_detour;
static_detour! {
static Test: /* extern "X" */ fn(i32) -> i32;
}
fn add5(val: i32) -> i32 {
val 5
}
fn add10(val: i32) -> i32 {
val 10
}
fn main() -> Result<(), Box<dyn Error>> {
// Reroute the 'add5' function to 'add10' (can also be a closure)
unsafe { Test.initialize(add5, add10)? };
assert_eq!(add5(1), 6);
assert_eq!(Test.call(1), 6);
// Hooks must be enabled to take effect
unsafe { Test.enable()? };
// The original function is detoured to 'add10'
assert_eq!(add5(1), 11);
// The original function can still be invoked using 'call'
assert_eq!(Test.call(1), 6);
// It is also possible to change the detour whilst hooked
Test.set_detour(|val| val - 5);
assert_eq!(add5(5), 0);
unsafe { Test.disable()? };
assert_eq!(add5(1), 6);
Ok(())
}
- A Windows API hooking example is available here; build it by running:
$ cargo build --example messageboxw_detour
Part of the library's external user interface was inspired by minhook-rs, created by Jascha-N, and it contains derivative code of his work.
-
EIP relocation
Should be performed whenever a function's prolog instructions are being executed, simultaneously as the function itself is being detoured. This is done by halting all affected threads, copying the affected instructions and appending a
JMP
to return to the function. This is barely ever an issue, and never in single-threaded environments, but YMMV. -
NOP-padding
int function() { return 0; } // xor eax, eax // ret // nop // nop // ...
Functions such as this one, lacking a hot-patching area, and too small to be hooked with a 5-byte
jmp
, are supported thanks to the detection of code padding (NOP/INT3
instructions). Therefore the required amount of trailingNOP
instructions will be replaced, to make room for the detour.