library/std/src/sys/thread/teeos.rs - rust - Git at Google

 use crate::mem::{self, ManuallyDrop};
 use crate::sys::os;
 use crate::time::Duration;
 use crate::{cmp, io, ptr};

 pub const DEFAULT_MIN_STACK_SIZE: usize = 8 * 1024;

 unsafe extern "C" {
     safe fn TEE_Wait(timeout: u32) -> u32;
 }

 fn min_stack_size(_: *const libc::pthread_attr_t) -> usize {
     libc::PTHREAD_STACK_MIN.try_into().expect("Infallible")
 }

 pub struct Thread {
     id: libc::pthread_t,
 }

 // Some platforms may have pthread_t as a pointer in which case we still want
 // a thread to be Send/Sync
 unsafe impl Send for Thread {}
 unsafe impl Sync for Thread {}

 impl Thread {
     // unsafe: see thread::Builder::spawn_unchecked for safety requirements
     pub unsafe fn new(
         stack: usize,
         _name: Option<&str>,
         p: Box<dyn FnOnce()>,
     ) -> io::Result<Thread> {
         let p = Box::into_raw(Box::new(p));
         let mut native: libc::pthread_t = unsafe { mem::zeroed() };
         let mut attr: libc::pthread_attr_t = unsafe { mem::zeroed() };
         assert_eq!(unsafe { libc::pthread_attr_init(&mut attr) }, 0);
         assert_eq!(
             unsafe {
                 libc::pthread_attr_settee(
                     &mut attr,
                     libc::TEESMP_THREAD_ATTR_CA_INHERIT,
                     libc::TEESMP_THREAD_ATTR_TASK_ID_INHERIT,
                     libc::TEESMP_THREAD_ATTR_HAS_SHADOW,
                 )
             },
             0,
         );

         let stack_size = cmp::max(stack, min_stack_size(&attr));

         match unsafe { libc::pthread_attr_setstacksize(&mut attr, stack_size) } {
             0 => {}
             n => {
                 assert_eq!(n, libc::EINVAL);
                 // EINVAL means |stack_size| is either too small or not a
                 // multiple of the system page size.  Because it's definitely
                 // >= PTHREAD_STACK_MIN, it must be an alignment issue.
                 // Round up to the nearest page and try again.
                 let page_size = os::page_size();
                 let stack_size =
                     (stack_size + page_size - 1) & (-(page_size as isize - 1) as usize - 1);
                 assert_eq!(unsafe { libc::pthread_attr_setstacksize(&mut attr, stack_size) }, 0);
             }
         };

         let ret = unsafe { libc::pthread_create(&mut native, &attr, thread_start, p as *mut _) };
         // Note: if the thread creation fails and this assert fails, then p will
         // be leaked. However, an alternative design could cause double-free
         // which is clearly worse.
         assert_eq!(unsafe { libc::pthread_attr_destroy(&mut attr) }, 0);

         return if ret != 0 {
             // The thread failed to start and as a result p was not consumed. Therefore, it is
             // safe to reconstruct the box so that it gets deallocated.
             drop(unsafe { Box::from_raw(p) });
             Err(io::Error::from_raw_os_error(ret))
         } else {
             // The new thread will start running earliest after the next yield.
             // We add a yield here, so that the user does not have to.
             yield_now();
             Ok(Thread { id: native })
         };

         extern "C" fn thread_start(main: *mut libc::c_void) -> *mut libc::c_void {
             unsafe {
                 // Next, set up our stack overflow handler which may get triggered if we run
                 // out of stack.
                 // this is not necessary in TEE.
                 //let _handler = stack_overflow::Handler::new();
                 // Finally, let's run some code.
                 Box::from_raw(main as *mut Box<dyn FnOnce()>)();
             }
             ptr::null_mut()
         }
     }

     /// must join, because no pthread_detach supported
     pub fn join(self) {
         let id = self.into_id();
         let ret = unsafe { libc::pthread_join(id, ptr::null_mut()) };
         assert!(ret == 0, "failed to join thread: {}", io::Error::from_raw_os_error(ret));
     }

     pub fn into_id(self) -> libc::pthread_t {
         ManuallyDrop::new(self).id
     }
 }

 impl Drop for Thread {
     fn drop(&mut self) {
         // we can not call detach, so just panic if thread spawn without join
         panic!("thread must join, detach is not supported!");
     }
 }

 pub fn yield_now() {
     let ret = unsafe { libc::sched_yield() };
     debug_assert_eq!(ret, 0);
 }

 /// only main thread could wait for sometime in teeos
 pub fn sleep(dur: Duration) {
     let sleep_millis = dur.as_millis();
     let final_sleep: u32 =
         if sleep_millis >= u32::MAX as u128 { u32::MAX } else { sleep_millis as u32 };
     TEE_Wait(final_sleep);
 }
	use crate::mem::{self, ManuallyDrop};
	use crate::sys::os;
	use crate::time::Duration;
	use crate::{cmp, io, ptr};

	pub const DEFAULT_MIN_STACK_SIZE: usize = 8 * 1024;

	unsafe extern "C" {
	safe fn TEE_Wait(timeout: u32) -> u32;
	}

	fn min_stack_size(_: *const libc::pthread_attr_t) -> usize {
	libc::PTHREAD_STACK_MIN.try_into().expect("Infallible")
	}

	pub struct Thread {
	id: libc::pthread_t,
	}

	// Some platforms may have pthread_t as a pointer in which case we still want
	// a thread to be Send/Sync
	unsafe impl Send for Thread {}
	unsafe impl Sync for Thread {}

	impl Thread {
	// unsafe: see thread::Builder::spawn_unchecked for safety requirements
	pub unsafe fn new(
	stack: usize,
	_name: Option<&str>,
	p: Box<dyn FnOnce()>,
	) -> io::Result<Thread> {
	let p = Box::into_raw(Box::new(p));
	let mut native: libc::pthread_t = unsafe { mem::zeroed() };
	let mut attr: libc::pthread_attr_t = unsafe { mem::zeroed() };
	assert_eq!(unsafe { libc::pthread_attr_init(&mut attr) }, 0);
	assert_eq!(
	unsafe {
	libc::pthread_attr_settee(
	&mut attr,
	libc::TEESMP_THREAD_ATTR_CA_INHERIT,
	libc::TEESMP_THREAD_ATTR_TASK_ID_INHERIT,
	libc::TEESMP_THREAD_ATTR_HAS_SHADOW,
	)
	},
	0,
	);

	let stack_size = cmp::max(stack, min_stack_size(&attr));

	match unsafe { libc::pthread_attr_setstacksize(&mut attr, stack_size) } {
	0 => {}
	n => {
	assert_eq!(n, libc::EINVAL);
	// EINVAL means \|stack_size\| is either too small or not a
	// multiple of the system page size. Because it's definitely
	// >= PTHREAD_STACK_MIN, it must be an alignment issue.
	// Round up to the nearest page and try again.
	let page_size = os::page_size();
	let stack_size =
	(stack_size + page_size - 1) & (-(page_size as isize - 1) as usize - 1);
	assert_eq!(unsafe { libc::pthread_attr_setstacksize(&mut attr, stack_size) }, 0);
	}
	};

	let ret = unsafe { libc::pthread_create(&mut native, &attr, thread_start, p as *mut _) };
	// Note: if the thread creation fails and this assert fails, then p will
	// be leaked. However, an alternative design could cause double-free
	// which is clearly worse.
	assert_eq!(unsafe { libc::pthread_attr_destroy(&mut attr) }, 0);

	return if ret != 0 {
	// The thread failed to start and as a result p was not consumed. Therefore, it is
	// safe to reconstruct the box so that it gets deallocated.
	drop(unsafe { Box::from_raw(p) });
	Err(io::Error::from_raw_os_error(ret))
	} else {
	// The new thread will start running earliest after the next yield.
	// We add a yield here, so that the user does not have to.
	yield_now();
	Ok(Thread { id: native })
	};

	extern "C" fn thread_start(main: mut libc::c_void) -> mut libc::c_void {
	unsafe {
	// Next, set up our stack overflow handler which may get triggered if we run
	// out of stack.
	// this is not necessary in TEE.
	//let _handler = stack_overflow::Handler::new();
	// Finally, let's run some code.
	Box::from_raw(main as *mut Box<dyn FnOnce()>)();
	}
	ptr::null_mut()
	}
	}

	/// must join, because no pthread_detach supported
	pub fn join(self) {
	let id = self.into_id();
	let ret = unsafe { libc::pthread_join(id, ptr::null_mut()) };
	assert!(ret == 0, "failed to join thread: {}", io::Error::from_raw_os_error(ret));
	}

	pub fn into_id(self) -> libc::pthread_t {
	ManuallyDrop::new(self).id
	}
	}

	impl Drop for Thread {
	fn drop(&mut self) {
	// we can not call detach, so just panic if thread spawn without join
	panic!("thread must join, detach is not supported!");
	}
	}

	pub fn yield_now() {
	let ret = unsafe { libc::sched_yield() };
	debug_assert_eq!(ret, 0);
	}

	/// only main thread could wait for sometime in teeos
	pub fn sleep(dur: Duration) {
	let sleep_millis = dur.as_millis();
	let final_sleep: u32 =
	if sleep_millis >= u32::MAX as u128 { u32::MAX } else { sleep_millis as u32 };
	TEE_Wait(final_sleep);
	}