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Revert "Fix pipe I/O in forkserver (#2602)" (#2612)

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This reverts commit ea4a281d535cce1b522ed0fb328f02b016a4b4ea.
This commit is contained in:
Dongjia "toka" Zhang 2024-10-14 14:17:40 +02:00 committed by GitHub
parent ea4a281d53
commit 888c608e5e
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GPG Key ID: B5690EEEBB952194
1 changed files with 51 additions and 61 deletions
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112
libafl/src/executors/forkserver.rs
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@ -488,54 +488,27 @@ impl Forkserver {
}
/// Read from the st pipe
pub fn read_st(&mut self) -> Result<i32, Error> {
pub fn read_st(&mut self) -> Result<(usize, i32), Error> {
let mut buf: [u8; 4] = [0_u8; 4];
let rlen = self.st_pipe.read(&mut buf)?;
let val: i32 = i32::from_ne_bytes(buf);
if rlen == size_of::<i32>() {
Ok(val)
} else {
// NOTE: The underlying API does not guarantee that the read will return
// exactly four bytes, but the chance of this happening is very low.
// This is a sacrifice of correctness for performance.
Err(Error::illegal_state(format!(
"Could not read from st pipe. Expected {} bytes, got {rlen} bytes",
size_of::<i32>()
)))
}
Ok((rlen, val))
}
/// Read bytes of any length from the st pipe
pub fn read_st_size(&mut self, size: usize) -> Result<Vec<u8>, Error> {
let mut buf = Vec::with_capacity(size);
// SAFETY: `buf` will not be returned with `Ok` unless it is filled with `size` bytes.
// So it is ok to set the length to `size` such that the length of `&mut buf` is `size`
// and the `read_exact` call will try to read `size` bytes.
#[allow(
clippy::uninit_vec,
reason = "The vec will be filled right after setting the length."
)]
unsafe {
buf.set_len(size);
}
self.st_pipe.read_exact(&mut buf)?;
Ok(buf)
pub fn read_st_size(&mut self, size: usize) -> Result<(usize, Vec<u8>), Error> {
let mut buf = vec![0; size];
let rlen = self.st_pipe.read(&mut buf)?;
Ok((rlen, buf))
}
/// Write to the ctl pipe
pub fn write_ctl(&mut self, val: i32) -> Result<(), Error> {
pub fn write_ctl(&mut self, val: i32) -> Result<usize, Error> {
let slen = self.ctl_pipe.write(&val.to_ne_bytes())?;
if slen == size_of::<i32>() {
Ok(())
} else {
// NOTE: The underlying API does not guarantee that exactly four bytes
// are written, but the chance of this happening is very low.
// This is a sacrifice of correctness for performance.
Err(Error::illegal_state(format!(
"Could not write to ctl pipe. Expected {} bytes, wrote {slen} bytes",
size_of::<i32>()
)))
}
Ok(slen)
}
/// Read a message from the child process.
@ -873,10 +846,11 @@ where
}
};
// Initial handshake, read 4-bytes hello message from the forkserver.
let Ok(version_status) = forkserver.read_st() else {
let (rlen, version_status) = forkserver.read_st()?; // Initial handshake, read 4-bytes hello message from the forkserver.
if rlen != 4 {
return Err(Error::unknown("Failed to start a forkserver".to_string()));
};
}
if (version_status & FS_NEW_ERROR) == FS_NEW_ERROR {
report_error_and_exit(version_status & 0x0000ffff)?;
@ -922,7 +896,8 @@ where
let xored_status = (status as u32 ^ 0xffffffff) as i32;
if forkserver.write_ctl(xored_status).is_err() {
let send_len = forkserver.write_ctl(xored_status)?;
if send_len != 4 {
return Err(Error::unknown("Writing to forkserver failed.".to_string()));
}
@ -931,18 +906,20 @@ where
version
);
let Ok(status) = forkserver.read_st() else {
let (read_len, status) = forkserver.read_st()?;
if read_len != 4 {
return Err(Error::unknown(
"Reading from forkserver failed.".to_string(),
));
};
}
if status & FS_NEW_OPT_MAPSIZE == FS_NEW_OPT_MAPSIZE {
let Ok(fsrv_map_size) = forkserver.read_st() else {
let (read_len, fsrv_map_size) = forkserver.read_st()?;
if read_len != 4 {
return Err(Error::unknown(
"Failed to read map size from forkserver".to_string(),
));
};
}
self.set_map_size(fsrv_map_size)?;
}
@ -960,11 +937,12 @@ where
if status & FS_NEW_OPT_AUTODICT != 0 {
// Here unlike shmem input fuzzing, we are forced to read things
// hence no self.autotokens.is_some() to check if we proceed
let Ok(autotokens_size) = forkserver.read_st() else {
let (read_len, autotokens_size) = forkserver.read_st()?;
if read_len != 4 {
return Err(Error::unknown(
"Failed to read autotokens size from forkserver".to_string(),
));
};
}
let tokens_size_max = 0xffffff;
@ -974,17 +952,20 @@ where
));
}
log::info!("Autotokens size {autotokens_size:x}");
let Ok(buf) = forkserver.read_st_size(autotokens_size as usize) else {
let (rlen, buf) = forkserver.read_st_size(autotokens_size as usize)?;
if rlen != autotokens_size as usize {
return Err(Error::unknown("Failed to load autotokens".to_string()));
};
}
if let Some(t) = &mut self.autotokens {
t.parse_autodict(&buf, autotokens_size as usize);
}
}
let Ok(aflx) = forkserver.read_st() else {
let (read_len, aflx) = forkserver.read_st()?;
if read_len != 4 {
return Err(Error::unknown("Reading from forkserver failed".to_string()));
};
}
if aflx != keep {
return Err(Error::unknown(format!(
@ -1034,16 +1015,18 @@ where
// if send_status is not changed (Options are available but we didn't use any), then don't send the next write_ctl message.
// This is important
if forkserver.write_ctl(send_status).is_err() {
let send_len = forkserver.write_ctl(send_status)?;
if send_len != 4 {
return Err(Error::unknown("Writing to forkserver failed.".to_string()));
}
if (send_status & FS_OPT_AUTODICT) == FS_OPT_AUTODICT {
let Ok(dict_size) = forkserver.read_st() else {
let (read_len, dict_size) = forkserver.read_st()?;
if read_len != 4 {
return Err(Error::unknown(
"Reading from forkserver failed.".to_string(),
));
};
}
if !(2..=0xffffff).contains(&dict_size) {
return Err(Error::illegal_state(
@ -1053,9 +1036,11 @@ where
log::info!("Autodict size {dict_size:x}");
let Ok(buf) = forkserver.read_st_size(dict_size as usize) else {
let (rlen, buf) = forkserver.read_st_size(dict_size as usize)?;
if rlen != dict_size as usize {
return Err(Error::unknown("Failed to load autodictionary".to_string()));
};
}
if let Some(t) = &mut self.autotokens {
t.parse_autodict(&buf, dict_size as usize);
}
@ -1437,18 +1422,22 @@ where
.write_buf(&input_bytes.as_slice()[..input_size])?;
}
let send_len = self.forkserver.write_ctl(last_run_timed_out)?;
self.forkserver.set_last_run_timed_out(false);
if self.forkserver.write_ctl(last_run_timed_out).is_err() {
if send_len != 4 {
return Err(Error::unknown(
"Unable to request new process from fork server (OOM?)".to_string(),
));
}
let Ok(pid) = self.forkserver.read_st() else {
let (recv_pid_len, pid) = self.forkserver.read_st()?;
if recv_pid_len != 4 {
return Err(Error::unknown(
"Unable to request new process from fork server (OOM?)".to_string(),
));
};
}
if pid <= 0 {
return Err(Error::unknown(
@ -1477,7 +1466,8 @@ where
// We need to kill the child in case he has timed out, or we can't get the correct pid in the next call to self.executor.forkserver_mut().read_st()?
let _ = kill(self.forkserver().child_pid(), self.forkserver.kill_signal);
if self.forkserver.read_st().is_err() {
let (recv_status_len, _) = self.forkserver.read_st()?;
if recv_status_len != 4 {
return Err(Error::unknown("Could not kill timed-out child".to_string()));
}
exit_kind = ExitKind::Timeout;