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|
#[cfg(all(
target_os = "linux",
any(target_arch = "x86_64", target_arch = "x86"),
target_env = "gnu"
))]
use memoffset::offset_of;
use nix::errno::Errno;
use nix::sys::ptrace;
#[cfg(any(target_os = "android", target_os = "linux"))]
use nix::sys::ptrace::Options;
use nix::unistd::getpid;
#[cfg(any(target_os = "android", target_os = "linux"))]
use std::mem;
use crate::*;
#[test]
fn test_ptrace() {
// Just make sure ptrace can be called at all, for now.
// FIXME: qemu-user doesn't implement ptrace on all arches, so permit ENOSYS
require_capability!("test_ptrace", CAP_SYS_PTRACE);
let err = ptrace::attach(getpid()).unwrap_err();
assert!(
err == Errno::EPERM || err == Errno::EINVAL || err == Errno::ENOSYS
);
}
// Just make sure ptrace_setoptions can be called at all, for now.
#[test]
#[cfg(any(target_os = "android", target_os = "linux"))]
fn test_ptrace_setoptions() {
require_capability!("test_ptrace_setoptions", CAP_SYS_PTRACE);
let err = ptrace::setoptions(getpid(), Options::PTRACE_O_TRACESYSGOOD)
.unwrap_err();
assert_ne!(err, Errno::EOPNOTSUPP);
}
// Just make sure ptrace_getevent can be called at all, for now.
#[test]
#[cfg(any(target_os = "android", target_os = "linux"))]
fn test_ptrace_getevent() {
require_capability!("test_ptrace_getevent", CAP_SYS_PTRACE);
let err = ptrace::getevent(getpid()).unwrap_err();
assert_ne!(err, Errno::EOPNOTSUPP);
}
// Just make sure ptrace_getsiginfo can be called at all, for now.
#[test]
#[cfg(any(target_os = "android", target_os = "linux"))]
fn test_ptrace_getsiginfo() {
require_capability!("test_ptrace_getsiginfo", CAP_SYS_PTRACE);
if let Err(Errno::EOPNOTSUPP) = ptrace::getsiginfo(getpid()) {
panic!("ptrace_getsiginfo returns Errno::EOPNOTSUPP!");
}
}
// Just make sure ptrace_setsiginfo can be called at all, for now.
#[test]
#[cfg(any(target_os = "android", target_os = "linux"))]
fn test_ptrace_setsiginfo() {
require_capability!("test_ptrace_setsiginfo", CAP_SYS_PTRACE);
let siginfo = unsafe { mem::zeroed() };
if let Err(Errno::EOPNOTSUPP) = ptrace::setsiginfo(getpid(), &siginfo) {
panic!("ptrace_setsiginfo returns Errno::EOPNOTSUPP!");
}
}
#[test]
fn test_ptrace_cont() {
use nix::sys::ptrace;
use nix::sys::signal::{raise, Signal};
use nix::sys::wait::{waitpid, WaitPidFlag, WaitStatus};
use nix::unistd::fork;
use nix::unistd::ForkResult::*;
require_capability!("test_ptrace_cont", CAP_SYS_PTRACE);
let _m = crate::FORK_MTX.lock();
// FIXME: qemu-user doesn't implement ptrace on all architectures
// and returns ENOSYS in this case.
// We (ab)use this behavior to detect the affected platforms
// and skip the test then.
// On valid platforms the ptrace call should return Errno::EPERM, this
// is already tested by `test_ptrace`.
let err = ptrace::attach(getpid()).unwrap_err();
if err == Errno::ENOSYS {
return;
}
match unsafe { fork() }.expect("Error: Fork Failed") {
Child => {
ptrace::traceme().unwrap();
// As recommended by ptrace(2), raise SIGTRAP to pause the child
// until the parent is ready to continue
loop {
raise(Signal::SIGTRAP).unwrap();
}
}
Parent { child } => {
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::Stopped(child, Signal::SIGTRAP))
);
ptrace::cont(child, None).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::Stopped(child, Signal::SIGTRAP))
);
ptrace::cont(child, Some(Signal::SIGKILL)).unwrap();
match waitpid(child, None) {
Ok(WaitStatus::Signaled(pid, Signal::SIGKILL, _))
if pid == child =>
{
// FIXME It's been observed on some systems (apple) the
// tracee may not be killed but remain as a zombie process
// affecting other wait based tests. Add an extra kill just
// to make sure there are no zombies.
let _ = waitpid(child, Some(WaitPidFlag::WNOHANG));
while ptrace::cont(child, Some(Signal::SIGKILL)).is_ok() {
let _ = waitpid(child, Some(WaitPidFlag::WNOHANG));
}
}
_ => panic!("The process should have been killed"),
}
}
}
}
#[cfg(target_os = "linux")]
#[test]
fn test_ptrace_interrupt() {
use nix::sys::ptrace;
use nix::sys::signal::Signal;
use nix::sys::wait::{waitpid, WaitPidFlag, WaitStatus};
use nix::unistd::fork;
use nix::unistd::ForkResult::*;
use std::thread::sleep;
use std::time::Duration;
require_capability!("test_ptrace_interrupt", CAP_SYS_PTRACE);
let _m = crate::FORK_MTX.lock();
match unsafe { fork() }.expect("Error: Fork Failed") {
Child => loop {
sleep(Duration::from_millis(1000));
},
Parent { child } => {
ptrace::seize(child, ptrace::Options::PTRACE_O_TRACESYSGOOD)
.unwrap();
ptrace::interrupt(child).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::PtraceEvent(child, Signal::SIGTRAP, 128))
);
ptrace::syscall(child, None).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::PtraceSyscall(child))
);
ptrace::detach(child, Some(Signal::SIGKILL)).unwrap();
match waitpid(child, None) {
Ok(WaitStatus::Signaled(pid, Signal::SIGKILL, _))
if pid == child =>
{
let _ = waitpid(child, Some(WaitPidFlag::WNOHANG));
while ptrace::cont(child, Some(Signal::SIGKILL)).is_ok() {
let _ = waitpid(child, Some(WaitPidFlag::WNOHANG));
}
}
_ => panic!("The process should have been killed"),
}
}
}
}
// ptrace::{setoptions, getregs} are only available in these platforms
#[cfg(all(
target_os = "linux",
any(target_arch = "x86_64", target_arch = "x86"),
target_env = "gnu"
))]
#[test]
fn test_ptrace_syscall() {
use nix::sys::ptrace;
use nix::sys::signal::kill;
use nix::sys::signal::Signal;
use nix::sys::wait::{waitpid, WaitStatus};
use nix::unistd::fork;
use nix::unistd::getpid;
use nix::unistd::ForkResult::*;
require_capability!("test_ptrace_syscall", CAP_SYS_PTRACE);
let _m = crate::FORK_MTX.lock();
match unsafe { fork() }.expect("Error: Fork Failed") {
Child => {
ptrace::traceme().unwrap();
// first sigstop until parent is ready to continue
let pid = getpid();
kill(pid, Signal::SIGSTOP).unwrap();
kill(pid, Signal::SIGTERM).unwrap();
unsafe {
::libc::_exit(0);
}
}
Parent { child } => {
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::Stopped(child, Signal::SIGSTOP))
);
// set this option to recognize syscall-stops
ptrace::setoptions(child, ptrace::Options::PTRACE_O_TRACESYSGOOD)
.unwrap();
#[cfg(target_arch = "x86_64")]
let get_syscall_id =
|| ptrace::getregs(child).unwrap().orig_rax as libc::c_long;
#[cfg(target_arch = "x86")]
let get_syscall_id =
|| ptrace::getregs(child).unwrap().orig_eax as libc::c_long;
// this duplicates `get_syscall_id` for the purpose of testing `ptrace::read_user`.
#[cfg(target_arch = "x86_64")]
let rax_offset = offset_of!(libc::user_regs_struct, orig_rax);
#[cfg(target_arch = "x86")]
let rax_offset = offset_of!(libc::user_regs_struct, orig_eax);
let get_syscall_from_user_area = || {
// Find the offset of `user.regs.rax` (or `user.regs.eax` for x86)
let rax_offset = offset_of!(libc::user, regs) + rax_offset;
ptrace::read_user(child, rax_offset as _).unwrap()
as libc::c_long
};
// kill entry
ptrace::syscall(child, None).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::PtraceSyscall(child))
);
assert_eq!(get_syscall_id(), ::libc::SYS_kill);
assert_eq!(get_syscall_from_user_area(), ::libc::SYS_kill);
// kill exit
ptrace::syscall(child, None).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::PtraceSyscall(child))
);
assert_eq!(get_syscall_id(), ::libc::SYS_kill);
assert_eq!(get_syscall_from_user_area(), ::libc::SYS_kill);
// receive signal
ptrace::syscall(child, None).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::Stopped(child, Signal::SIGTERM))
);
// inject signal
ptrace::syscall(child, Signal::SIGTERM).unwrap();
assert_eq!(
waitpid(child, None),
Ok(WaitStatus::Signaled(child, Signal::SIGTERM, false))
);
}
}
}
|