mirror of
https://github.com/denoland/deno.git
synced 2024-12-29 02:29:06 -05:00
425 lines
13 KiB
Rust
425 lines
13 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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#[cfg(target_family = "windows")]
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use std::sync::Once;
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type LoadAvg = (f64, f64, f64);
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const DEFAULT_LOADAVG: LoadAvg = (0.0, 0.0, 0.0);
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pub fn loadavg() -> LoadAvg {
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#[cfg(any(target_os = "android", target_os = "linux"))]
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{
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use libc::SI_LOAD_SHIFT;
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let mut info = std::mem::MaybeUninit::uninit();
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// SAFETY: `info` is a valid pointer to a `libc::sysinfo` struct.
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let res = unsafe { libc::sysinfo(info.as_mut_ptr()) };
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if res == 0 {
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// SAFETY: `sysinfo` returns 0 on success, and `info` is initialized.
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let info = unsafe { info.assume_init() };
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(
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info.loads[0] as f64 / (1 << SI_LOAD_SHIFT) as f64,
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info.loads[1] as f64 / (1 << SI_LOAD_SHIFT) as f64,
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info.loads[2] as f64 / (1 << SI_LOAD_SHIFT) as f64,
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)
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} else {
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DEFAULT_LOADAVG
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}
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}
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#[cfg(any(
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target_vendor = "apple",
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target_os = "freebsd",
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target_os = "openbsd"
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))]
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{
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let mut l: [f64; 3] = [0.; 3];
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// SAFETY: `&mut l` is a valid pointer to an array of 3 doubles
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if unsafe { libc::getloadavg(&mut l as *mut f64, l.len() as _) } < 3 {
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DEFAULT_LOADAVG
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} else {
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(l[0], l[1], l[2])
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}
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}
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#[cfg(target_os = "windows")]
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{
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DEFAULT_LOADAVG
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}
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}
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pub fn os_release() -> String {
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#[cfg(target_os = "linux")]
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{
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#[allow(clippy::disallowed_methods)]
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match std::fs::read_to_string("/proc/sys/kernel/osrelease") {
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Ok(mut s) => {
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s.pop(); // pop '\n'
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s
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}
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_ => String::from(""),
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}
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}
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#[cfg(target_os = "android")]
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{
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let mut info = std::mem::MaybeUninit::uninit();
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// SAFETY: `info` is a valid pointer to a `libc::utsname` struct.
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let res = unsafe { libc::uname(info.as_mut_ptr()) };
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if res != 0 {
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return String::from("");
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}
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// SAFETY: `uname` returns 0 on success, and `info` is initialized.
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let mut info = unsafe { info.assume_init() };
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let len = info.release.len();
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info.release[len - 1] = 0;
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// SAFETY: `info.release` is a valid pointer and NUL-terminated.
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let c_str = unsafe { std::ffi::CStr::from_ptr(info.release.as_ptr()) };
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c_str.to_string_lossy().into_owned()
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}
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#[cfg(any(
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target_vendor = "apple",
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target_os = "freebsd",
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target_os = "openbsd"
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))]
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{
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let mut s = [0u8; 256];
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let mut mib = [libc::CTL_KERN, libc::KERN_OSRELEASE];
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// 256 is enough.
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let mut len = s.len();
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// SAFETY: `sysctl` is thread-safe.
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// `s` is only accessed if sysctl() succeeds and agrees with the `len` set
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// by sysctl().
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if unsafe {
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libc::sysctl(
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mib.as_mut_ptr(),
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mib.len() as _,
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s.as_mut_ptr() as _,
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&mut len,
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std::ptr::null_mut(),
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0,
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)
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} == -1
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{
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return String::from("Unknown");
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}
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// without the NUL terminator
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return String::from_utf8_lossy(&s[..len - 1]).to_string();
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}
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#[cfg(target_family = "windows")]
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{
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use ntapi::ntrtl::RtlGetVersion;
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use winapi::shared::ntdef::NT_SUCCESS;
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use winapi::um::winnt::RTL_OSVERSIONINFOEXW;
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let mut version_info =
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std::mem::MaybeUninit::<RTL_OSVERSIONINFOEXW>::uninit();
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// SAFETY: we need to initialize dwOSVersionInfoSize.
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unsafe {
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(*version_info.as_mut_ptr()).dwOSVersionInfoSize =
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std::mem::size_of::<RTL_OSVERSIONINFOEXW>() as u32;
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}
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// SAFETY: `version_info` is pointer to a valid `RTL_OSVERSIONINFOEXW` struct and
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// dwOSVersionInfoSize is set to the size of RTL_OSVERSIONINFOEXW.
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if !NT_SUCCESS(unsafe {
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RtlGetVersion(version_info.as_mut_ptr() as *mut _)
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}) {
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String::from("")
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} else {
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// SAFETY: we assume that RtlGetVersion() initializes the fields.
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let version_info = unsafe { version_info.assume_init() };
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format!(
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"{}.{}.{}",
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version_info.dwMajorVersion,
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version_info.dwMinorVersion,
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version_info.dwBuildNumber
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)
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}
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}
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}
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#[cfg(target_family = "windows")]
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static WINSOCKET_INIT: Once = Once::new();
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pub fn hostname() -> String {
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#[cfg(target_family = "unix")]
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// SAFETY: `sysconf` returns a system constant.
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unsafe {
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let buf_size = libc::sysconf(libc::_SC_HOST_NAME_MAX) as usize;
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let mut buf = vec![0u8; buf_size + 1];
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let len = buf.len();
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if libc::gethostname(buf.as_mut_ptr() as *mut libc::c_char, len) < 0 {
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return String::from("");
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}
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// ensure NUL termination
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buf[len - 1] = 0;
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std::ffi::CStr::from_ptr(buf.as_ptr() as *const libc::c_char)
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.to_string_lossy()
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.to_string()
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}
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#[cfg(target_family = "windows")]
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{
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use std::ffi::OsString;
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use std::mem;
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use std::os::windows::ffi::OsStringExt;
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use winapi::shared::minwindef::MAKEWORD;
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use winapi::um::winsock2::GetHostNameW;
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use winapi::um::winsock2::WSAStartup;
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let namelen = 256;
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let mut name: Vec<u16> = vec![0u16; namelen];
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// Start winsock to make `GetHostNameW` work correctly
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// https://github.com/retep998/winapi-rs/issues/296
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// SAFETY: winapi call
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WINSOCKET_INIT.call_once(|| unsafe {
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let mut data = mem::zeroed();
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let wsa_startup_result = WSAStartup(MAKEWORD(2, 2), &mut data);
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if wsa_startup_result != 0 {
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panic!("Failed to start winsocket");
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}
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});
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let err =
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// SAFETY: length of wide string is 256 chars or less.
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// https://learn.microsoft.com/en-us/windows/win32/api/winsock2/nf-winsock2-gethostnamew
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unsafe { GetHostNameW(name.as_mut_ptr(), namelen as libc::c_int) };
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if err == 0 {
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// TODO(@littledivy): Probably not the most efficient way.
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let len = name.iter().take_while(|&&c| c != 0).count();
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OsString::from_wide(&name[..len])
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.to_string_lossy()
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.into_owned()
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} else {
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String::from("")
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}
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}
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}
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#[derive(serde::Serialize)]
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#[serde(rename_all = "camelCase")]
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pub struct MemInfo {
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pub total: u64,
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pub free: u64,
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pub available: u64,
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pub buffers: u64,
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pub cached: u64,
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pub swap_total: u64,
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pub swap_free: u64,
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}
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pub fn mem_info() -> Option<MemInfo> {
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let mut mem_info = MemInfo {
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total: 0,
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free: 0,
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available: 0,
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buffers: 0,
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cached: 0,
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swap_total: 0,
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swap_free: 0,
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};
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#[cfg(any(target_os = "android", target_os = "linux"))]
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{
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let mut info = std::mem::MaybeUninit::uninit();
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// SAFETY: `info` is a valid pointer to a `libc::sysinfo` struct.
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let res = unsafe { libc::sysinfo(info.as_mut_ptr()) };
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if res == 0 {
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// SAFETY: `sysinfo` initializes the struct.
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let info = unsafe { info.assume_init() };
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let mem_unit = info.mem_unit as u64;
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mem_info.swap_total = info.totalswap * mem_unit;
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mem_info.swap_free = info.freeswap * mem_unit;
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mem_info.total = info.totalram * mem_unit;
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mem_info.free = info.freeram * mem_unit;
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mem_info.available = mem_info.free;
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mem_info.buffers = info.bufferram * mem_unit;
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}
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// Gets the available memory from /proc/meminfo in linux for compatibility
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#[allow(clippy::disallowed_methods)]
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if let Ok(meminfo) = std::fs::read_to_string("/proc/meminfo") {
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let line = meminfo.lines().find(|l| l.starts_with("MemAvailable:"));
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if let Some(line) = line {
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let mem = line.split_whitespace().nth(1);
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let mem = mem.and_then(|v| v.parse::<u64>().ok());
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mem_info.available = mem.unwrap_or(0);
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}
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}
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}
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#[cfg(target_vendor = "apple")]
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{
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let mut mib: [i32; 2] = [0, 0];
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mib[0] = libc::CTL_HW;
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mib[1] = libc::HW_MEMSIZE;
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// SAFETY:
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// - We assume that `mach_host_self` always returns a valid value.
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// - sysconf returns a system constant.
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unsafe {
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let mut size = std::mem::size_of::<u64>();
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libc::sysctl(
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mib.as_mut_ptr(),
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mib.len() as _,
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&mut mem_info.total as *mut _ as *mut libc::c_void,
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&mut size,
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std::ptr::null_mut(),
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0,
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);
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let mut xs: libc::xsw_usage = std::mem::zeroed::<libc::xsw_usage>();
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mib[0] = libc::CTL_VM;
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mib[1] = libc::VM_SWAPUSAGE;
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let mut size = std::mem::size_of::<libc::xsw_usage>();
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libc::sysctl(
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mib.as_mut_ptr(),
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mib.len() as _,
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&mut xs as *mut _ as *mut libc::c_void,
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&mut size,
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std::ptr::null_mut(),
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0,
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);
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mem_info.swap_total = xs.xsu_total;
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mem_info.swap_free = xs.xsu_avail;
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let mut count: u32 = libc::HOST_VM_INFO64_COUNT as _;
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let mut stat = std::mem::zeroed::<libc::vm_statistics64>();
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if libc::host_statistics64(
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// TODO(@littledivy): Put this in a once_cell.
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libc::mach_host_self(),
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libc::HOST_VM_INFO64,
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&mut stat as *mut libc::vm_statistics64 as *mut _,
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&mut count,
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) == libc::KERN_SUCCESS
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{
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// TODO(@littledivy): Put this in a once_cell
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let page_size = libc::sysconf(libc::_SC_PAGESIZE) as u64;
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mem_info.available =
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(stat.free_count as u64 + stat.inactive_count as u64) * page_size
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/ 1024;
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mem_info.free =
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(stat.free_count as u64 - stat.speculative_count as u64) * page_size
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/ 1024;
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}
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}
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}
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#[cfg(target_family = "windows")]
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// SAFETY:
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// - `mem_status` is a valid pointer to a `libc::MEMORYSTATUSEX` struct.
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// - `dwLength` is set to the size of the struct.
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unsafe {
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use std::mem;
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use winapi::shared::minwindef;
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use winapi::um::psapi::GetPerformanceInfo;
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use winapi::um::psapi::PERFORMANCE_INFORMATION;
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use winapi::um::sysinfoapi;
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let mut mem_status =
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mem::MaybeUninit::<sysinfoapi::MEMORYSTATUSEX>::uninit();
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let length =
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mem::size_of::<sysinfoapi::MEMORYSTATUSEX>() as minwindef::DWORD;
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(*mem_status.as_mut_ptr()).dwLength = length;
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let result = sysinfoapi::GlobalMemoryStatusEx(mem_status.as_mut_ptr());
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if result != 0 {
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let stat = mem_status.assume_init();
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mem_info.total = stat.ullTotalPhys;
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mem_info.available = 0;
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mem_info.free = stat.ullAvailPhys;
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mem_info.cached = 0;
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mem_info.buffers = 0;
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// `stat.ullTotalPageFile` is reliable only from GetPerformanceInfo()
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//
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// See https://learn.microsoft.com/en-us/windows/win32/api/sysinfoapi/ns-sysinfoapi-memorystatusex
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// and https://github.com/GuillaumeGomez/sysinfo/issues/534
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let mut perf_info = mem::MaybeUninit::<PERFORMANCE_INFORMATION>::uninit();
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let result = GetPerformanceInfo(
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perf_info.as_mut_ptr(),
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mem::size_of::<PERFORMANCE_INFORMATION>() as minwindef::DWORD,
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);
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if result == minwindef::TRUE {
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let perf_info = perf_info.assume_init();
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let swap_total = perf_info.PageSize
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* perf_info
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.CommitLimit
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.saturating_sub(perf_info.PhysicalTotal);
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let swap_free = perf_info.PageSize
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* perf_info
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.CommitLimit
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.saturating_sub(perf_info.PhysicalTotal)
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.saturating_sub(perf_info.PhysicalAvailable);
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mem_info.swap_total = (swap_total / 1000) as u64;
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mem_info.swap_free = (swap_free / 1000) as u64;
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}
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}
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}
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Some(mem_info)
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}
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pub fn os_uptime() -> u64 {
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let uptime: u64;
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#[cfg(any(target_os = "android", target_os = "linux"))]
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{
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let mut info = std::mem::MaybeUninit::uninit();
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// SAFETY: `info` is a valid pointer to a `libc::sysinfo` struct.
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let res = unsafe { libc::sysinfo(info.as_mut_ptr()) };
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uptime = if res == 0 {
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// SAFETY: `sysinfo` initializes the struct.
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let info = unsafe { info.assume_init() };
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info.uptime as u64
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} else {
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0
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}
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}
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#[cfg(any(
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target_vendor = "apple",
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target_os = "freebsd",
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target_os = "openbsd"
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))]
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{
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use std::mem;
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use std::time::Duration;
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use std::time::SystemTime;
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let mut request = [libc::CTL_KERN, libc::KERN_BOOTTIME];
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// SAFETY: `boottime` is only accessed if sysctl() succeeds
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// and agrees with the `size` set by sysctl().
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let mut boottime: libc::timeval = unsafe { mem::zeroed() };
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let mut size: libc::size_t = mem::size_of_val(&boottime) as libc::size_t;
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// SAFETY: `sysctl` is thread-safe.
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let res = unsafe {
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libc::sysctl(
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&mut request[0],
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2,
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&mut boottime as *mut libc::timeval as *mut libc::c_void,
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&mut size,
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std::ptr::null_mut(),
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0,
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)
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};
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uptime = if res == 0 {
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SystemTime::now()
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.duration_since(SystemTime::UNIX_EPOCH)
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.map(|d| {
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(d - Duration::new(
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boottime.tv_sec as u64,
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boottime.tv_usec as u32 * 1000,
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))
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.as_secs()
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})
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.unwrap_or_default()
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} else {
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0
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}
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}
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#[cfg(target_family = "windows")]
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// SAFETY: windows API usage
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unsafe {
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// Windows is the only one that returns `uptime` in millisecond precision,
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// so we need to get the seconds out of it to be in sync with other envs.
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uptime = winapi::um::sysinfoapi::GetTickCount64() / 1000;
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}
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uptime
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}
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