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01cdc505d9
Prevent fill from being (correctly) optimized away by passing the address of the alloca to black_box.
102 lines
3.4 KiB
Rust
102 lines
3.4 KiB
Rust
// run-pass
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// only-x86_64-unknown-linux-gnu
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// revisions: ssp no-ssp
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// [ssp] compile-flags: -Z stack-protector=all
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// compile-flags: -C opt-level=2
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// compile-flags: -g
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use std::env;
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use std::process::{Command, ExitStatus};
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fn main() {
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if env::args().len() == 1 {
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// The test is initially run without arguments. Start the process again,
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// this time *with* an argument; in this configuration, the test program
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// will deliberately smash the stack.
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let cur_argv0 = env::current_exe().unwrap();
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let mut child = Command::new(&cur_argv0);
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child.arg("stacksmash");
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if cfg!(ssp) {
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assert_stack_smash_prevented(&mut child);
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} else {
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assert_stack_smashed(&mut child);
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}
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} else {
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vulnerable_function();
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// If we return here the test is broken: it should either have called
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// malicious_code() which terminates the process, or be caught by the
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// stack check which also terminates the process.
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panic!("TEST BUG: stack smash unsuccessful");
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}
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}
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// Avoid inlining to make sure the return address is pushed to stack.
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#[inline(never)]
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fn vulnerable_function() {
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let mut x = 5usize;
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let stackaddr = &mut x as *mut usize;
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let bad_code_ptr = malicious_code as usize;
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// Overwrite the on-stack return address with the address of `malicious_code()`,
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// thereby jumping to that function when returning from `vulnerable_function()`.
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unsafe { fill(stackaddr, bad_code_ptr, 20); }
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// Capture the address, so the write is not optimized away.
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std::hint::black_box(stackaddr);
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}
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// Use an uninlined function with its own stack frame to make sure that we don't
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// clobber e.g. the counter or address local variable.
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#[inline(never)]
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unsafe fn fill(addr: *mut usize, val: usize, count: usize) {
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let mut addr = addr;
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for _ in 0..count {
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*addr = val;
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addr = addr.add(1);
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}
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}
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// We jump to malicious_code() having wreaked havoc with the previous stack
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// frame and not setting up a new one. This function is therefore constrained,
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// e.g. both println!() and std::process::exit() segfaults if called. We
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// therefore keep the amount of work to a minimum by calling POSIX functions
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// directly.
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// The function is un-inlined just to make it possible to set a breakpoint here.
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#[inline(never)]
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fn malicious_code() {
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let msg = [112u8, 119u8, 110u8, 101u8, 100u8, 33u8, 0u8]; // "pwned!\0" ascii
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unsafe {
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write(1, &msg as *const u8, msg.len());
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_exit(0);
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}
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}
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extern "C" {
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fn write(fd: i32, buf: *const u8, count: usize) -> isize;
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fn _exit(status: i32) -> !;
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}
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fn assert_stack_smash_prevented(cmd: &mut Command) {
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let (status, stdout, stderr) = run(cmd);
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assert!(!status.success());
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assert!(stdout.is_empty());
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assert!(stderr.contains("stack smashing detected"));
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}
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fn assert_stack_smashed(cmd: &mut Command) {
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let (status, stdout, stderr) = run(cmd);
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assert!(status.success());
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assert!(stdout.contains("pwned!"));
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assert!(stderr.is_empty());
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}
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fn run(cmd: &mut Command) -> (ExitStatus, String, String) {
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let output = cmd.output().unwrap();
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let stdout = String::from_utf8_lossy(&output.stdout);
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let stderr = String::from_utf8_lossy(&output.stderr);
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println!("status: {}", output.status);
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println!("stdout: {}", stdout);
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println!("stderr: {}", stderr);
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(output.status, stdout.to_string(), stderr.to_string())
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}
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