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//! ## About Honggfuzz //! //! Honggfuzz is a security oriented fuzzer with powerful analysis options. Supports evolutionary, feedback-driven fuzzing based on code coverage (software- and hardware-based). //! //! * project homepage [honggfuzz.com](http://honggfuzz.com/) //! * project repository [github.com/google/honggfuzz](https://github.com/google/honggfuzz) //! * this upstream project is maintained by Google, but ... //! * this is NOT an official Google product //! //! ## Compatibility //! //! * __Rust__: stable, beta, nightly //! * __OS__: GNU/Linux, macOS, FreeBSD, Android, WSL (Windows Subsystem for Linux) //! * __Arch__: x86_64, x86, arm64-v8a, armeabi-v7a, armeabi //! * __Sanitizer__: none, address, thread, leak //! //! ## How to use this crate //! //! Install honggfuzz commands to build with instrumentation and fuzz //! //! ```sh //! # installs hfuzz and honggfuzz subcommands in cargo //! cargo install honggfuzz //! ``` //! //! Add to your dependencies //! //! ```toml //! [dependencies] //! honggfuzz = "0.5" //! ``` //! //! Create a target to fuzz //! //! ```rust,should_panic //! #[macro_use] extern crate honggfuzz; //! //! fn main() { //! // Here you can parse `std::env::args and //! // setup / initialize your project //! //! // You have full control over the loop but //! // you're supposed to call `fuzz` ad vitam aeternam //! loop { //! // The fuzz macro gives an arbitrary object (see `arbitrary crate`) //! // to a closure-like block of code. //! // For performance reasons, it is recommended that you use the native type //! // `&[u8]` when possible. //! // Here, this slice will contain a "random" quantity of "random" data. //! fuzz!(|data: &[u8]| { //! if data.len() != 6 {return} //! if data[0] != b'q' {return} //! if data[1] != b'w' {return} //! if data[2] != b'e' {return} //! if data[3] != b'r' {return} //! if data[4] != b't' {return} //! if data[5] != b'y' {return} //! panic!("BOOM") //! }); //! } //! } //! //! ``` //! //! Fuzz for fun and profit ! //! //! ```sh //! # builds with fuzzing instrumentation and then fuzz the "example" target //! cargo hfuzz run example //! ``` //! //! Once you got a crash, replay it easily in a debug environment //! //! ```sh //! # builds the target in debug mode and replays automatically the crash in gdb //! cargo hfuzz run-debug example fuzzing_workspace/*.fuzz //! ``` //! //! You can also build and run your project without compile-time software instrumentation (LLVM's SanCov passes) //! //! This allows you for example to try hardware-only feedback driven fuzzing: //! //! ```sh //! # builds without fuzzing instrumentation and then fuzz the "example" target using hardware-based feedback //! HFUZZ_RUN_ARGS="--linux_perf_ipt_block --linux_perf_instr --linux_perf_branch" cargo hfuzz run-no-instr example //! ``` //! //! Clean //! //! ```sh //! # a wrapper on "cargo clean" which cleans the fuzzing_target directory //! cargo hfuzz clean //! ``` //! //! Version //! //! ```sh //! cargo hfuzz version //! ``` //! //! ### Environment variables //! //! #### `RUSTFLAGS` //! //! You can use `RUSTFLAGS` to send additional arguments to `rustc`. //! //! For instance, you can enable the use of LLVM's [sanitizers](https://github.com/japaric/rust-san). //! This is a recommended option if you want to test your `unsafe` rust code but it will have an impact on performance. //! //! ```sh //! RUSTFLAGS="-Z sanitizer=address" cargo hfuzz run example //! ``` //! //! #### `HFUZZ_BUILD_ARGS` //! //! You can use `HFUZZ_BUILD_ARGS` to send additional arguments to `cargo build`. //! //! #### `HFUZZ_RUN_ARGS` //! //! You can use `HFUZZ_RUN_ARGS` to send additional arguments to `honggfuzz`. //! See [USAGE](https://github.com/google/honggfuzz/blob/master/docs/USAGE.md) for the list of those. //! //! For example: //! //! ```sh //! # 1 second of timeout //! # use 12 fuzzing thread //! # be verbose //! # stop after 1000000 fuzzing iteration //! # exit upon crash //! HFUZZ_RUN_ARGS="-t 1 -n 12 -v -N 1000000 --exit_upon_crash" cargo hfuzz run example //! ``` //! //! #### `HFUZZ_DEBUGGER` //! //! By default we use `rust-lldb` but you can change it to `rust-gdb`, `gdb`, `/usr/bin/lldb-7` ... //! //! #### `CARGO_TARGET_DIR` //! //! Target compilation directory, defaults to `hfuzz_target` to not clash with `cargo build`'s default `target` directory. //! //! #### `HFUZZ_WORKSPACE` //! //! Honggfuzz working directory, defaults to `hfuzz_workspace`. //! //! #### `HFUZZ_INPUT` //! //! Honggfuzz input files (also called "corpus"), defaults to `$HFUZZ_WORKSPACE/{TARGET}/input`. //! //! ## Conditionnal compilation //! //! Sometimes, it is necessary to make some specific adaptation to your code to yield a better fuzzing efficiency. //! //! For instance: //! - Make you software behavior as much as possible deterministic on the fuzzing input //! - [PRNG](https://en.wikipedia.org/wiki/Pseudorandom_number_generator)s must be seeded with a constant or the fuzzer input //! - Behavior shouldn't change based on the computer's clock. //! - Avoid potential undeterministic behavior from racing threads. //! - ... //! - Never ever call `std::process::exit()`. //! - Disable logging and other unnecessary functionnalities. //! - Try to avoid modifying global state when possible. //! //! //! When building with `cargo hfuzz`, the argument `--cfg fuzzing` is passed to `rustc` to allow you to condition the compilation of thoses adaptations thanks to the `cfg` macro like so: //! //! ```rust //! # extern crate rand; //! # use rand::{Rng, StdRng, SeedableRng}; //! # fn main() { //! #[cfg(fuzzing)] //! let mut rng = rand::StdRng::from_seed(&[0]); //! #[cfg(not(fuzzing))] //! let mut rng = rand::thread_rng(); //! # } //! ``` //! //! Also, when building in debug mode, the `fuzzing_debug` argument is added in addition to `fuzzing`. //! //! For more information about conditional compilation, please see the [reference](https://doc.rust-lang.org/reference/attributes.html#conditional-compilation). //! //! ## Relevant documentation about honggfuzz //! * [USAGE](https://github.com/google/honggfuzz/blob/master/docs/USAGE.md) //! * [FeedbackDrivenFuzzing](https://github.com/google/honggfuzz/blob/master/docs/FeedbackDrivenFuzzing.md) //! * [PersistentFuzzing](https://github.com/google/honggfuzz/blob/master/docs/PersistentFuzzing.md) //! //! ## About Rust fuzzing //! //! There is other projects providing Rust fuzzing support at [github.com/rust-fuzz](https://github.com/rust-fuzz). //! //! You'll find support for [AFL](https://github.com/rust-fuzz/afl.rs) and LLVM's [LibFuzzer](https://github.com/rust-fuzz/cargo-fuzz) and there is also a [trophy case](https://github.com/rust-fuzz/trophy-case) ;-) . //! //! This crate was inspired by those projects! #[cfg(all(fuzzing, fuzzing_debug))] extern crate memmap; #[cfg(all(fuzzing, not(fuzzing_debug)))] extern "C" { fn HF_ITER(buf_ptr: *mut *const u8, len_ptr: *mut usize ); } /// Fuzz a closure by passing it a `&[u8]` /// /// This slice contains a "random" quantity of "random" data. /// /// For perstistent fuzzing to work, you have to call it ad vita aeternam in an infinite loop. /// /// ```rust,should_panic /// # extern crate honggfuzz; /// # use honggfuzz::fuzz; /// # fn main() { /// loop { /// fuzz(|data|{ /// if data.len() != 6 {return} /// if data[0] != b'q' {return} /// if data[1] != b'w' {return} /// if data[2] != b'e' {return} /// if data[3] != b'r' {return} /// if data[4] != b't' {return} /// if data[5] != b'y' {return} /// panic!("BOOM") /// }); /// } /// # } /// ``` #[cfg(not(fuzzing))] #[allow(unused_variables)] pub fn fuzz<F>(closure: F) where F: Fn(&[u8]) { eprintln!("This executable hasn't been built with \"cargo hfuzz\"."); eprintln!("Try executing \"cargo hfuzz build\" and check out \"hfuzz_target\" directory."); eprintln!("Or execute \"cargo hfuzz run TARGET\""); std::process::exit(17); } #[cfg(all(fuzzing, not(fuzzing_debug)))] pub fn fuzz<F>(closure: F) where F: Fn(&[u8]) { let buf; unsafe { let mut buf_ptr: *const u8 = std::mem::uninitialized(); let mut len_ptr: usize = std::mem::uninitialized(); HF_ITER(&mut buf_ptr, &mut len_ptr); buf = ::std::slice::from_raw_parts(buf_ptr, len_ptr); } closure(buf); } #[cfg(all(fuzzing, fuzzing_debug))] pub fn fuzz<F>(closure: F) where F: Fn(&[u8]) { use std::env; use std::fs::File; use memmap::MmapOptions; let filename = env::var("CARGO_HONGGFUZZ_CRASH_FILENAME").unwrap_or_else(|_|{ eprintln!("error: Environment variable CARGO_HONGGFUZZ_CRASH_FILENAME not set. Try launching with \"cargo hfuzz run-debug TARGET CRASH_FILENAME [ ARGS ... ]\""); std::process::exit(1); }); let file = File::open(&filename).unwrap_or_else(|_|{ eprintln!("error: failed to open \"{}\"", &filename); std::process::exit(1); }); let mmap = unsafe {MmapOptions::new().map(&file)}.unwrap_or_else(|_|{ eprintln!("error: failed to mmap file \"{}\"", &filename); std::process::exit(1); }); closure(&mmap); eprintln!("This crashfile didn't trigger any panics..."); eprintln!("Are you sure that you selected the correct crashfile and that your program's behavior is entirely deterministic and only dependent on the fuzzing input?"); std::process::exit(2); } /// Fuzz a closure-like block of code by passing it an object of arbitrary type. /// /// You can choose the type of the argument using the syntax as in the example below. /// Please check out the `arbitrary` crate to see which types are available. /// /// For performance reasons, it is recommended that you use the native type `&[u8]` when possible. /// /// For perstistent fuzzing to work, you have to call it ad vita aeternam in an infinite loop. /// /// ```rust,should_panic /// # #[macro_use] extern crate honggfuzz; /// # fn main() { /// loop { /// fuzz!(|data: &[u8]| { /// if data.len() != 6 {return} /// if data[0] != b'q' {return} /// if data[1] != b'w' {return} /// if data[2] != b'e' {return} /// if data[3] != b'r' {return} /// if data[4] != b't' {return} /// if data[5] != b'y' {return} /// panic!("BOOM") /// }); /// } /// # } /// ``` #[macro_export] macro_rules! fuzz { (|$buf:ident| $body:block) => { honggfuzz::fuzz(|$buf| $body); }; (|$buf:ident: &[u8]| $body:block) => { honggfuzz::fuzz(|$buf| $body); }; (|$buf:ident: $dty: ty| $body:block) => { honggfuzz::fuzz(|$buf| { let $buf: $dty = { use arbitrary::{Arbitrary, RingBuffer}; if let Ok(d) = RingBuffer::new($buf, $buf.len()).and_then(|mut b|{ Arbitrary::arbitrary(&mut b).map_err(|_| "") }) { d } else { return } }; $body }); }; }