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mod.rs
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mod.rs
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#![cfg_attr(test, allow(unused))] // RT initialization logic is not compiled for test
use crate::io::Write;
use core::arch::global_asm;
use core::sync::atomic::{AtomicUsize, Ordering};
// runtime features
pub(super) mod panic;
mod reloc;
// library features
pub mod mem;
pub mod thread;
pub mod tls;
#[macro_use]
pub mod usercalls;
#[cfg(not(test))]
global_asm!(include_str!("entry.S"), options(att_syntax));
#[repr(C)]
struct EntryReturn(u64, u64);
#[cfg(not(test))]
#[no_mangle]
unsafe extern "C" fn tcs_init(secondary: bool) {
// Be very careful when changing this code: it runs before the binary has been
// relocated. Any indirect accesses to symbols will likely fail.
const UNINIT: usize = 0;
const BUSY: usize = 1;
const DONE: usize = 2;
// Three-state spin-lock
static RELOC_STATE: AtomicUsize = AtomicUsize::new(UNINIT);
if secondary && RELOC_STATE.load(Ordering::Relaxed) != DONE {
rtabort!("Entered secondary TCS before main TCS!")
}
// Try to atomically swap UNINIT with BUSY. The returned state can be:
match RELOC_STATE.compare_exchange(UNINIT, BUSY, Ordering::Acquire, Ordering::Acquire) {
// This thread just obtained the lock and other threads will observe BUSY
Ok(_) => {
reloc::relocate_elf_rela();
RELOC_STATE.store(DONE, Ordering::Release);
}
// We need to wait until the initialization is done.
Err(BUSY) => {
while RELOC_STATE.load(Ordering::Acquire) == BUSY {
core::hint::spin_loop();
}
}
// Initialization is done.
Err(DONE) => {}
_ => unreachable!(),
}
}
// FIXME: this item should only exist if this is linked into an executable
// (main function exists). If this is a library, the crate author should be
// able to specify this
#[cfg(not(test))]
#[no_mangle]
extern "C" fn entry(p1: u64, p2: u64, p3: u64, secondary: bool, p4: u64, p5: u64) -> EntryReturn {
// FIXME: how to support TLS in library mode?
let tls = Box::new(tls::Tls::new());
let tls_guard = unsafe { tls.activate() };
if secondary {
let join_notifier = super::thread::Thread::entry();
drop(tls_guard);
drop(join_notifier);
EntryReturn(0, 0)
} else {
extern "C" {
fn main(argc: isize, argv: *const *const u8) -> isize;
}
// check entry is being called according to ABI
rtassert!(p3 == 0);
rtassert!(p4 == 0);
rtassert!(p5 == 0);
unsafe {
// The actual types of these arguments are `p1: *const Arg, p2:
// usize`. We can't currently customize the argument list of Rust's
// main function, so we pass these in as the standard pointer-sized
// values in `argc` and `argv`.
let ret = main(p2 as _, p1 as _);
exit_with_code(ret)
}
}
}
pub(super) fn exit_with_code(code: isize) -> ! {
if code != 0 {
if let Some(mut out) = panic::SgxPanicOutput::new() {
let _ = write!(out, "Exited with status code {code}");
}
}
usercalls::exit(code != 0);
}
#[cfg(not(test))]
#[no_mangle]
extern "C" fn abort_reentry() -> ! {
usercalls::exit(false)
}