// This file is part of the uutils coreutils package. // // For the full copyright and license information, please view the LICENSE // file that was distributed with this source code. // spell-checker:ignore STRINGSTRING INTEGERINTEGER FILEFILE #![no_main] use libfuzzer_sys::fuzz_target; use uu_test::uumain; use rand::seq::SliceRandom; use rand::Rng; use std::ffi::OsString; mod fuzz_common; use crate::fuzz_common::{generate_and_run_uumain, run_gnu_cmd}; #[derive(PartialEq, Debug, Clone)] enum ArgType { STRING, STRINGSTRING, INTEGER, INTEGERINTEGER, FILE, FILEFILE, // Add any other types as needed } static CMD_PATH: &str = "test"; fn generate_random_string(max_length: usize) -> String { let mut rng = rand::thread_rng(); let valid_utf8: Vec = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789" .chars() .collect(); let invalid_utf8 = [0xC3, 0x28]; // Invalid UTF-8 sequence let mut result = String::new(); for _ in 0..rng.gen_range(1..=max_length) { if rng.gen_bool(0.9) { let ch = valid_utf8.choose(&mut rng).unwrap(); result.push(*ch); } else { let ch = invalid_utf8.choose(&mut rng).unwrap(); if let Some(c) = char::from_u32(*ch as u32) { result.push(c); } } } result } #[derive(Debug, Clone)] struct TestArg { arg: String, arg_type: ArgType, } fn generate_random_path(rng: &mut dyn rand::RngCore) -> &'static str { match rng.gen_range(0..=3) { 0 => "/dev/null", 1 => "/dev/random", 2 => "/tmp", _ => "/dev/urandom", } } fn generate_test_args() -> Vec { vec![ TestArg { arg: "-z".to_string(), arg_type: ArgType::STRING, }, TestArg { arg: "-n".to_string(), arg_type: ArgType::STRING, }, TestArg { arg: "=".to_string(), arg_type: ArgType::STRINGSTRING, }, TestArg { arg: "!=".to_string(), arg_type: ArgType::STRINGSTRING, }, TestArg { arg: "-eq".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-ne".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-gt".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-ge".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-lt".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-le".to_string(), arg_type: ArgType::INTEGERINTEGER, }, TestArg { arg: "-f".to_string(), arg_type: ArgType::FILE, }, TestArg { arg: "-d".to_string(), arg_type: ArgType::FILE, }, TestArg { arg: "-e".to_string(), arg_type: ArgType::FILE, }, TestArg { arg: "-ef".to_string(), arg_type: ArgType::FILEFILE, }, TestArg { arg: "-nt".to_string(), arg_type: ArgType::FILEFILE, }, ] } fn generate_test_arg() -> String { let mut rng = rand::thread_rng(); let test_args = generate_test_args(); let mut arg = String::new(); let choice = rng.gen_range(0..=5); match choice { 0 => { arg.push_str(&rng.gen_range(-100..=100).to_string()); } 1 | 2 | 3 => { let test_arg = test_args .choose(&mut rng) .expect("Failed to choose a random test argument"); if test_arg.arg_type == ArgType::INTEGER { arg.push_str(&format!( "{} {} {}", &rng.gen_range(-100..=100).to_string(), test_arg.arg, &rng.gen_range(-100..=100).to_string() )); } else if test_arg.arg_type == ArgType::STRINGSTRING { let random_str = generate_random_string(rng.gen_range(1..=10)); let random_str2 = generate_random_string(rng.gen_range(1..=10)); arg.push_str(&format!( "{} {} {}", &random_str, test_arg.arg, &random_str2 )); } else if test_arg.arg_type == ArgType::STRING { let random_str = generate_random_string(rng.gen_range(1..=10)); arg.push_str(&format!("{} {}", test_arg.arg, &random_str)); } else if test_arg.arg_type == ArgType::FILEFILE { let path = generate_random_path(&mut rng); let path2 = generate_random_path(&mut rng); arg.push_str(&format!("{} {} {}", path, test_arg.arg, path2)); } else if test_arg.arg_type == ArgType::FILE { let path = generate_random_path(&mut rng); arg.push_str(&format!("{} {}", test_arg.arg, path)); } } 4 => { let random_str = generate_random_string(rng.gen_range(1..=10)); arg.push_str(&random_str); } _ => { let path = generate_random_path(&mut rng); let file_test_args: Vec = test_args .iter() .filter(|ta| ta.arg_type == ArgType::FILE) .cloned() .collect(); if let Some(test_arg) = file_test_args.choose(&mut rng) { arg.push_str(&format!("{}{}", test_arg.arg, path)); } } } arg } fuzz_target!(|_data: &[u8]| { let mut rng = rand::thread_rng(); let max_args = rng.gen_range(1..=6); let mut args = vec![OsString::from("test")]; for _ in 0..max_args { args.push(OsString::from(generate_test_arg())); } let (rust_output, uumain_exit_status) = generate_and_run_uumain(&mut args, uumain); // Run GNU test with the provided arguments and compare the output match run_gnu_cmd(CMD_PATH, &args[1..], false) { Ok((gnu_output, gnu_exit_status)) => { let gnu_output = gnu_output.trim().to_owned(); println!("gnu_exit_status {}", gnu_exit_status); println!("uumain_exit_status {}", uumain_exit_status); if rust_output != gnu_output || uumain_exit_status != gnu_exit_status { println!("Discrepancy detected!"); println!("Test: {:?}", &args[1..]); println!("My output: {}", rust_output); println!("GNU output: {}", gnu_output); println!("My exit status: {}", uumain_exit_status); println!("GNU exit status: {}", gnu_exit_status); panic!(); } else { println!( "Outputs and exit statuses matched for expression {:?}", &args[1..] ); } } Err(_) => { println!("GNU test execution failed for expression {:?}", &args[1..]); } } });