// SPDX-License-Identifier: MIT OR Apache-2.0 // // Copyright (c) 2019-2020 Andre Richter //! Timer sanity tests. #![feature(custom_test_frameworks)] #![no_main] #![no_std] #![reexport_test_harness_main = "test_main"] #![test_runner(libkernel::test_runner)] mod panic_exit_failure; use core::time::Duration; use libkernel::{bsp, cpu, time, time::interface::TimeManager}; use test_macros::kernel_test; #[no_mangle] unsafe fn kernel_init() -> ! { bsp::console::qemu_bring_up_console(); // Depending on CPU arch, some timer bring-up code could go here. Not needed for the RPi. test_main(); cpu::qemu_exit_success() } /// Simple check that the timer is running. #[kernel_test] fn timer_is_counting() { assert!(time::time_manager().uptime().as_nanos() > 0) } /// Timer resolution must be sufficient. #[kernel_test] fn timer_resolution_is_sufficient() { assert!(time::time_manager().resolution().as_nanos() < 100) } /// Sanity check spin_for() implementation. #[kernel_test] fn spin_accuracy_check_1_second() { let t1 = time::time_manager().uptime(); time::time_manager().spin_for(Duration::from_secs(1)); let t2 = time::time_manager().uptime(); assert_eq!((t2 - t1).as_secs(), 1) }