// Copyright (C) 2024 Intel Corporation. // Author(s): Zhao Liu // SPDX-License-Identifier: GPL-2.0-or-later use std::os::raw::{c_int, c_void}; use crate::{ bindings::{self, qemu_clock_get_ns, timer_del, timer_init_full, timer_mod, QEMUClockType}, callbacks::FnCall, }; pub type Timer = bindings::QEMUTimer; pub type TimerListGroup = bindings::QEMUTimerListGroup; impl Timer { pub const MS: u32 = bindings::SCALE_MS; pub const US: u32 = bindings::SCALE_US; pub const NS: u32 = bindings::SCALE_NS; pub fn new() -> Self { Default::default() } const fn as_mut_ptr(&self) -> *mut Self { self as *const Timer as *mut _ } pub fn init_full<'timer, 'opaque: 'timer, T, F>( &'timer mut self, timer_list_group: Option<&TimerListGroup>, clk_type: ClockType, scale: u32, attributes: u32, _cb: F, opaque: &'opaque T, ) where F: for<'a> FnCall<(&'a T,)>, { let _: () = F::ASSERT_IS_SOME; /// timer expiration callback unsafe extern "C" fn rust_timer_handler FnCall<(&'a T,)>>( opaque: *mut c_void, ) { // SAFETY: the opaque was passed as a reference to `T`. F::call((unsafe { &*(opaque.cast::()) },)) } let timer_cb: unsafe extern "C" fn(*mut c_void) = rust_timer_handler::; // SAFETY: the opaque outlives the timer unsafe { timer_init_full( self, if let Some(g) = timer_list_group { g as *const TimerListGroup as *mut _ } else { ::core::ptr::null_mut() }, clk_type.id, scale as c_int, attributes as c_int, Some(timer_cb), (opaque as *const T).cast::() as *mut c_void, ) } } pub fn modify(&self, expire_time: u64) { unsafe { timer_mod(self.as_mut_ptr(), expire_time as i64) } } pub fn delete(&self) { unsafe { timer_del(self.as_mut_ptr()) } } } impl Drop for Timer { fn drop(&mut self) { self.delete() } } pub struct ClockType { id: QEMUClockType, } impl ClockType { pub fn get_ns(&self) -> u64 { // SAFETY: cannot be created outside this module, therefore id // is valid (unsafe { qemu_clock_get_ns(self.id) }) as u64 } } pub const CLOCK_VIRTUAL: ClockType = ClockType { id: QEMUClockType::QEMU_CLOCK_VIRTUAL, };