2024-01-01 14:58:21 -05:00
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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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2023-12-27 22:38:50 -05:00
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use deno_core::serde::Serialize;
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#[derive(Debug, Default, Serialize, Clone)]
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pub struct CpuTimes {
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pub user: u64,
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pub nice: u64,
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pub sys: u64,
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pub idle: u64,
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pub irq: u64,
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}
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#[derive(Debug, Default, Serialize, Clone)]
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pub struct CpuInfo {
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pub model: String,
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/* in MHz */
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pub speed: u64,
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pub times: CpuTimes,
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}
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impl CpuInfo {
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pub fn new() -> Self {
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Self::default()
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}
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}
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#[cfg(target_os = "macos")]
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pub fn cpu_info() -> Option<Vec<CpuInfo>> {
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let mut model: [u8; 512] = [0; 512];
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let mut size = std::mem::size_of_val(&model);
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// Safety: Assumes correct behavior of platform-specific syscalls and data structures.
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// Relies on specific sysctl names and sysconf parameter existence.
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unsafe {
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let ticks = libc::sysconf(libc::_SC_CLK_TCK);
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let multiplier = 1000u64 / ticks as u64;
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if libc::sysctlbyname(
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"machdep.cpu.brand_string\0".as_ptr() as *const libc::c_char,
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model.as_mut_ptr() as _,
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&mut size,
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std::ptr::null_mut(),
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0,
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) != 0
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&& libc::sysctlbyname(
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"hw.model\0".as_ptr() as *const libc::c_char,
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model.as_mut_ptr() as _,
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&mut size,
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std::ptr::null_mut(),
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0,
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) != 0
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{
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return None;
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}
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let mut cpu_speed: u64 = 0;
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let mut cpu_speed_size = std::mem::size_of_val(&cpu_speed);
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libc::sysctlbyname(
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"hw.cpufrequency\0".as_ptr() as *const libc::c_char,
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&mut cpu_speed as *mut _ as *mut libc::c_void,
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&mut cpu_speed_size,
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std::ptr::null_mut(),
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0,
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);
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if cpu_speed == 0 {
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// https://github.com/libuv/libuv/pull/3679
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//
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// hw.cpufrequency sysctl seems to be missing on darwin/arm64
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// so we instead hardcode a plausible value. This value matches
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// what the mach kernel will report when running Rosetta apps.
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cpu_speed = 2_400_000_000;
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}
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let mut num_cpus: libc::natural_t = 0;
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let mut info: *mut libc::processor_cpu_load_info_data_t =
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std::ptr::null_mut();
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let mut msg_type: libc::mach_msg_type_number_t = 0;
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if libc::host_processor_info(
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libc::mach_host_self(),
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libc::PROCESSOR_CPU_LOAD_INFO,
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&mut num_cpus,
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&mut info as *mut _ as *mut libc::processor_info_array_t,
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&mut msg_type,
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) != 0
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{
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return None;
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}
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let mut cpus = vec![CpuInfo::new(); num_cpus as usize];
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let info = std::slice::from_raw_parts(info, num_cpus as usize);
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let model = std::ffi::CStr::from_ptr(model.as_ptr() as _)
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.to_string_lossy()
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.into_owned();
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for (i, cpu) in cpus.iter_mut().enumerate() {
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cpu.times.user =
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info[i].cpu_ticks[libc::CPU_STATE_USER as usize] as u64 * multiplier;
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cpu.times.nice =
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info[i].cpu_ticks[libc::CPU_STATE_NICE as usize] as u64 * multiplier;
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cpu.times.sys =
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info[i].cpu_ticks[libc::CPU_STATE_SYSTEM as usize] as u64 * multiplier;
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cpu.times.idle =
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info[i].cpu_ticks[libc::CPU_STATE_IDLE as usize] as u64 * multiplier;
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cpu.times.irq = 0;
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cpu.model = model.clone();
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cpu.speed = cpu_speed / 1000000;
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}
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libc::vm_deallocate(
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libc::mach_task_self(),
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info.as_ptr() as libc::vm_address_t,
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msg_type as _,
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);
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Some(cpus)
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}
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}
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#[cfg(target_os = "windows")]
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pub fn cpu_info() -> Option<Vec<CpuInfo>> {
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use windows_sys::Win32::System::WindowsProgramming::NtQuerySystemInformation;
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use windows_sys::Win32::System::WindowsProgramming::SystemProcessorPerformanceInformation;
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use windows_sys::Win32::System::WindowsProgramming::SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION;
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use std::os::windows::ffi::OsStrExt;
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use std::os::windows::ffi::OsStringExt;
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fn encode_wide(s: &str) -> Vec<u16> {
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std::ffi::OsString::from(s)
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.encode_wide()
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.chain(Some(0))
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.collect()
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}
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// Safety: Assumes correct behavior of platform-specific syscalls and data structures.
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unsafe {
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let mut system_info: winapi::um::sysinfoapi::SYSTEM_INFO =
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std::mem::zeroed();
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winapi::um::sysinfoapi::GetSystemInfo(&mut system_info);
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let cpu_count = system_info.dwNumberOfProcessors as usize;
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let mut cpus = vec![CpuInfo::new(); cpu_count];
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let mut sppi: Vec<SYSTEM_PROCESSOR_PERFORMANCE_INFORMATION> =
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vec![std::mem::zeroed(); cpu_count];
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let sppi_size = std::mem::size_of_val(&sppi[0]) * cpu_count;
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let mut result_size = 0;
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let status = NtQuerySystemInformation(
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SystemProcessorPerformanceInformation,
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sppi.as_mut_ptr() as *mut _,
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sppi_size as u32,
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&mut result_size,
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);
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if status != 0 {
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return None;
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}
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assert_eq!(result_size, sppi_size as u32);
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for i in 0..cpu_count {
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let key_name =
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format!("HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\{}", i);
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let key_name = encode_wide(&key_name);
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let mut processor_key: windows_sys::Win32::System::Registry::HKEY =
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std::mem::zeroed();
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let err = windows_sys::Win32::System::Registry::RegOpenKeyExW(
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windows_sys::Win32::System::Registry::HKEY_LOCAL_MACHINE,
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key_name.as_ptr(),
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0,
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windows_sys::Win32::System::Registry::KEY_QUERY_VALUE,
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&mut processor_key,
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);
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if err != 0 {
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return None;
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}
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let mut cpu_speed = 0;
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let mut cpu_speed_size = std::mem::size_of_val(&cpu_speed) as u32;
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let err = windows_sys::Win32::System::Registry::RegQueryValueExW(
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processor_key,
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encode_wide("~MHz").as_ptr() as *mut _,
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std::ptr::null_mut(),
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std::ptr::null_mut(),
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&mut cpu_speed as *mut _ as *mut _,
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&mut cpu_speed_size,
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);
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if err != 0 {
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return None;
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}
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let cpu_brand: [u16; 512] = [0; 512];
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let mut cpu_brand_size = std::mem::size_of_val(&cpu_brand) as u32;
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let err = windows_sys::Win32::System::Registry::RegQueryValueExW(
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processor_key,
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encode_wide("ProcessorNameString").as_ptr() as *mut _,
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std::ptr::null_mut(),
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std::ptr::null_mut(),
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cpu_brand.as_ptr() as *mut _,
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&mut cpu_brand_size,
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);
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windows_sys::Win32::System::Registry::RegCloseKey(processor_key);
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if err != 0 {
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return None;
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}
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let cpu_brand =
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std::ffi::OsString::from_wide(&cpu_brand[..cpu_brand_size as usize])
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.into_string()
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.unwrap();
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cpus[i].model = cpu_brand;
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cpus[i].speed = cpu_speed as u64;
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cpus[i].times.user = sppi[i].UserTime as u64 / 10000;
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cpus[i].times.sys =
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(sppi[i].KernelTime - sppi[i].IdleTime) as u64 / 10000;
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cpus[i].times.idle = sppi[i].IdleTime as u64 / 10000;
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/* InterruptTime is Reserved1[1] */
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cpus[i].times.irq = sppi[i].Reserved1[1] as u64 / 10000;
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cpus[i].times.nice = 0;
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}
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Some(cpus)
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}
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}
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2024-01-10 08:04:14 -05:00
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#[cfg(any(target_os = "android", target_os = "linux"))]
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2023-12-27 22:38:50 -05:00
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pub fn cpu_info() -> Option<Vec<CpuInfo>> {
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use std::io::BufRead;
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let mut cpus = vec![CpuInfo::new(); 8192]; /* Kernel maxmimum */
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let fp = std::fs::File::open("/proc/stat").ok()?;
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let reader = std::io::BufReader::new(fp);
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2024-02-06 18:27:42 -05:00
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let mut count = 0;
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2023-12-27 22:38:50 -05:00
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for (i, line) in reader.lines().enumerate() {
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let line = line.ok()?;
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if !line.starts_with("cpu") {
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break;
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}
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2024-02-06 18:27:42 -05:00
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count = i;
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2023-12-27 22:38:50 -05:00
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let mut fields = line.split_whitespace();
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fields.next()?;
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let user = fields.next()?.parse::<u64>().ok()?;
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let nice = fields.next()?.parse::<u64>().ok()?;
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let sys = fields.next()?.parse::<u64>().ok()?;
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let idle = fields.next()?.parse::<u64>().ok()?;
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let irq = fields.next()?.parse::<u64>().ok()?;
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cpus[i].times.user = user;
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cpus[i].times.nice = nice;
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cpus[i].times.sys = sys;
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cpus[i].times.idle = idle;
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cpus[i].times.irq = irq;
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}
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let fp = std::fs::File::open("/proc/cpuinfo").ok()?;
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let reader = std::io::BufReader::new(fp);
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2024-02-06 18:27:42 -05:00
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let mut j = 0;
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2023-12-27 22:38:50 -05:00
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for line in reader.lines() {
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let line = line.ok()?;
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if !line.starts_with("model name") {
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continue;
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}
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let mut fields = line.splitn(2, ':');
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fields.next()?;
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let model = fields.next()?.trim();
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2024-02-06 18:27:42 -05:00
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cpus[j].model = model.to_string();
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j += 1;
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2023-12-27 22:38:50 -05:00
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}
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2024-02-06 18:27:42 -05:00
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while j < count {
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cpus[j].model = "unknown".to_string();
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j += 1;
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}
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cpus.truncate(count);
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2023-12-27 22:38:50 -05:00
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Some(cpus)
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn test_cpu_info() {
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let info = cpu_info();
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assert!(info.is_some());
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let info = info.unwrap();
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assert!(!info.is_empty());
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for cpu in info {
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assert!(!cpu.model.is_empty());
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assert!(cpu.times.user > 0);
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assert!(cpu.times.sys > 0);
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assert!(cpu.times.idle > 0);
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}
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}
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}
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