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use crate::errno::*;
use crate::synch::spinlock::*;
use alloc::boxed::Box;
pub struct SpinlockContainer<'a> {
lock: Spinlock<()>,
guard: Option<SpinlockGuard<'a, ()>>,
}
pub struct SpinlockIrqSaveContainer<'a> {
lock: SpinlockIrqSave<()>,
guard: Option<SpinlockIrqSaveGuard<'a, ()>>,
}
fn __sys_spinlock_init(lock: *mut *mut SpinlockContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let boxed_container = Box::new(SpinlockContainer {
lock: Spinlock::new(()),
guard: None,
});
unsafe {
*lock = Box::into_raw(boxed_container);
}
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_init(lock: *mut *mut SpinlockContainer) -> i32 {
kernel_function!(__sys_spinlock_init(lock))
}
fn __sys_spinlock_destroy(lock: *mut SpinlockContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
unsafe {
Box::from_raw(lock);
}
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_destroy(lock: *mut SpinlockContainer) -> i32 {
kernel_function!(__sys_spinlock_destroy(lock))
}
fn __sys_spinlock_lock(lock: *mut SpinlockContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let container = unsafe { &mut *lock };
assert!(
container.guard.is_none(),
"Called sys_spinlock_lock when a lock is already held!"
);
container.guard = Some(container.lock.lock());
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_lock(lock: *mut SpinlockContainer) -> i32 {
kernel_function!(__sys_spinlock_lock(lock))
}
fn __sys_spinlock_unlock(lock: *mut SpinlockContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let container = unsafe { &mut *lock };
assert!(
container.guard.is_some(),
"Called sys_spinlock_unlock when no lock is currently held!"
);
container.guard = None;
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_unlock(lock: *mut SpinlockContainer) -> i32 {
kernel_function!(__sys_spinlock_unlock(lock))
}
fn __sys_spinlock_irqsave_init(lock: *mut *mut SpinlockIrqSaveContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let boxed_container = Box::new(SpinlockIrqSaveContainer {
lock: SpinlockIrqSave::new(()),
guard: None,
});
unsafe {
*lock = Box::into_raw(boxed_container);
}
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_irqsave_init(lock: *mut *mut SpinlockIrqSaveContainer) -> i32 {
kernel_function!(__sys_spinlock_irqsave_init(lock))
}
fn __sys_spinlock_irqsave_destroy(lock: *mut SpinlockIrqSaveContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
unsafe {
Box::from_raw(lock);
}
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_irqsave_destroy(lock: *mut SpinlockIrqSaveContainer) -> i32 {
kernel_function!(__sys_spinlock_irqsave_destroy(lock))
}
fn __sys_spinlock_irqsave_lock(lock: *mut SpinlockIrqSaveContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let container = unsafe { &mut *lock };
assert!(
container.guard.is_none(),
"Called sys_spinlock_irqsave_lock when a lock is already held!"
);
container.guard = Some(container.lock.lock());
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_irqsave_lock(lock: *mut SpinlockIrqSaveContainer) -> i32 {
kernel_function!(__sys_spinlock_irqsave_lock(lock))
}
fn __sys_spinlock_irqsave_unlock(lock: *mut SpinlockIrqSaveContainer) -> i32 {
if lock.is_null() {
return -EINVAL;
}
let container = unsafe { &mut *lock };
assert!(
container.guard.is_some(),
"Called sys_spinlock_irqsave_unlock when no lock is currently held!"
);
container.guard = None;
0
}
#[no_mangle]
pub extern "C" fn sys_spinlock_irqsave_unlock(lock: *mut SpinlockIrqSaveContainer) -> i32 {
kernel_function!(__sys_spinlock_irqsave_unlock(lock))
}