// Take a look at the license at the top of the repository in the LICENSE file. use crate::sys::system::get_sys_value; use crate::{CpuExt, CpuRefreshKind}; use libc::{c_char, host_processor_info, mach_task_self}; use std::mem; use std::ops::Deref; use std::sync::Arc; pub(crate) struct UnsafePtr(*mut T); unsafe impl Send for UnsafePtr {} unsafe impl Sync for UnsafePtr {} impl Deref for UnsafePtr { type Target = *mut T; fn deref(&self) -> &*mut T { &self.0 } } pub(crate) struct CpuData { pub cpu_info: UnsafePtr, pub num_cpu_info: u32, } impl CpuData { pub fn new(cpu_info: *mut i32, num_cpu_info: u32) -> CpuData { CpuData { cpu_info: UnsafePtr(cpu_info), num_cpu_info, } } } impl Drop for CpuData { fn drop(&mut self) { if !self.cpu_info.0.is_null() { let prev_cpu_info_size = std::mem::size_of::() as u32 * self.num_cpu_info; unsafe { libc::vm_deallocate( mach_task_self(), self.cpu_info.0 as _, prev_cpu_info_size as _, ); } self.cpu_info.0 = std::ptr::null_mut(); } } } #[doc = include_str!("../../md_doc/cpu.md")] pub struct Cpu { name: String, cpu_usage: f32, cpu_data: Arc, frequency: u64, vendor_id: String, brand: String, } impl Cpu { pub(crate) fn new( name: String, cpu_data: Arc, frequency: u64, vendor_id: String, brand: String, ) -> Cpu { Cpu { name, cpu_usage: 0f32, cpu_data, frequency, vendor_id, brand, } } pub(crate) fn set_cpu_usage(&mut self, cpu_usage: f32) { self.cpu_usage = cpu_usage; } pub(crate) fn update(&mut self, cpu_usage: f32, cpu_data: Arc) { self.cpu_usage = cpu_usage; self.cpu_data = cpu_data; } pub(crate) fn data(&self) -> Arc { Arc::clone(&self.cpu_data) } pub(crate) fn set_frequency(&mut self, frequency: u64) { self.frequency = frequency; } } impl CpuExt for Cpu { fn cpu_usage(&self) -> f32 { self.cpu_usage } fn name(&self) -> &str { &self.name } /// Returns the CPU frequency in MHz. fn frequency(&self) -> u64 { self.frequency } fn vendor_id(&self) -> &str { &self.vendor_id } fn brand(&self) -> &str { &self.brand } } pub(crate) fn get_cpu_frequency() -> u64 { let mut speed: u64 = 0; let mut len = std::mem::size_of::(); unsafe { libc::sysctlbyname( b"hw.cpufrequency\0".as_ptr() as *const c_char, &mut speed as *mut _ as _, &mut len, std::ptr::null_mut(), 0, ); speed / 1_000_000 } } #[inline] fn get_in_use(cpu_info: *mut i32, offset: isize) -> i32 { unsafe { *cpu_info.offset(offset + libc::CPU_STATE_USER as isize) + *cpu_info.offset(offset + libc::CPU_STATE_SYSTEM as isize) + *cpu_info.offset(offset + libc::CPU_STATE_NICE as isize) } } #[inline] fn get_idle(cpu_info: *mut i32, offset: isize) -> i32 { unsafe { *cpu_info.offset(offset + libc::CPU_STATE_IDLE as isize) } } pub(crate) fn compute_usage_of_cpu(proc_: &Cpu, cpu_info: *mut i32, offset: isize) -> f32 { let old_cpu_info = proc_.data().cpu_info.0; let in_use; let total; // In case we are initializing cpus, there is no "old value" yet. if old_cpu_info == cpu_info { in_use = get_in_use(cpu_info, offset); total = in_use + get_idle(cpu_info, offset); } else { in_use = get_in_use(cpu_info, offset) - get_in_use(old_cpu_info, offset); total = in_use + (get_idle(cpu_info, offset) - get_idle(old_cpu_info, offset)); } in_use as f32 / total as f32 * 100. } pub(crate) fn update_cpu_usage, *mut i32) -> (f32, usize)>( port: libc::mach_port_t, global_cpu: &mut Cpu, f: F, ) { let mut num_cpu_u = 0u32; let mut cpu_info: *mut i32 = std::ptr::null_mut(); let mut num_cpu_info = 0u32; let mut total_cpu_usage = 0f32; unsafe { if host_processor_info( port, libc::PROCESSOR_CPU_LOAD_INFO, &mut num_cpu_u as *mut u32, &mut cpu_info as *mut *mut i32, &mut num_cpu_info as *mut u32, ) == libc::KERN_SUCCESS { let (total_percentage, len) = f(Arc::new(CpuData::new(cpu_info, num_cpu_info)), cpu_info); total_cpu_usage = total_percentage / len as f32; } global_cpu.set_cpu_usage(total_cpu_usage); } } pub(crate) fn init_cpus( port: libc::mach_port_t, cpus: &mut Vec, global_cpu: &mut Cpu, refresh_kind: CpuRefreshKind, ) { let mut num_cpu = 0; let mut mib = [0, 0]; let (vendor_id, brand) = get_vendor_id_and_brand(); let frequency = if refresh_kind.frequency() { get_cpu_frequency() } else { 0 }; unsafe { if !get_sys_value( libc::CTL_HW as _, libc::HW_NCPU as _, mem::size_of::(), &mut num_cpu as *mut _ as *mut _, &mut mib, ) { num_cpu = 1; } } update_cpu_usage(port, global_cpu, |proc_data, cpu_info| { let mut percentage = 0f32; let mut offset = 0; for i in 0..num_cpu { let mut p = Cpu::new( format!("{}", i + 1), Arc::clone(&proc_data), frequency, vendor_id.clone(), brand.clone(), ); if refresh_kind.cpu_usage() { let cpu_usage = compute_usage_of_cpu(&p, cpu_info, offset); p.set_cpu_usage(cpu_usage); percentage += p.cpu_usage(); } cpus.push(p); offset += libc::CPU_STATE_MAX as isize; } (percentage, cpus.len()) }); // We didn't set them above to avoid cloning them unnecessarily. global_cpu.brand = brand; global_cpu.vendor_id = vendor_id; global_cpu.frequency = frequency; } fn get_sysctl_str(s: &[u8]) -> String { let mut len = 0; unsafe { libc::sysctlbyname( s.as_ptr() as *const c_char, std::ptr::null_mut(), &mut len, std::ptr::null_mut(), 0, ); if len < 1 { return String::new(); } let mut buf = Vec::with_capacity(len); libc::sysctlbyname( s.as_ptr() as *const c_char, buf.as_mut_ptr() as _, &mut len, std::ptr::null_mut(), 0, ); if len > 0 { buf.set_len(len); while buf.last() == Some(&b'\0') { buf.pop(); } String::from_utf8(buf).unwrap_or_else(|_| String::new()) } else { String::new() } } } pub(crate) fn get_vendor_id_and_brand() -> (String, String) { // On apple M1, `sysctl machdep.cpu.vendor` returns "", so fallback to "Apple" if the result // is empty. let mut vendor = get_sysctl_str(b"machdep.cpu.vendor\0"); if vendor.is_empty() { vendor = "Apple".to_string(); } (vendor, get_sysctl_str(b"machdep.cpu.brand_string\0")) } #[cfg(test)] mod test { use crate::*; use std::process::Command; #[test] fn check_vendor_and_brand() { let child = Command::new("sysctl") .arg("-a") .output() .expect("Failed to start command..."); assert!(child.status.success()); let stdout = String::from_utf8(child.stdout).expect("Not valid UTF8"); let sys = System::new_with_specifics( crate::RefreshKind::new().with_cpu(CpuRefreshKind::new().with_cpu_usage()), ); let cpus = sys.cpus(); assert!(!cpus.is_empty(), "no CPU found"); if let Some(line) = stdout.lines().find(|l| l.contains("machdep.cpu.vendor")) { let sysctl_value = line.split(":").skip(1).next().unwrap(); assert_eq!(cpus[0].vendor_id(), sysctl_value.trim()); } if let Some(line) = stdout .lines() .find(|l| l.contains("machdep.cpu.brand_string")) { let sysctl_value = line.split(":").skip(1).next().unwrap(); assert_eq!(cpus[0].brand(), sysctl_value.trim()); } } }