// Take a look at the license at the top of the repository in the LICENSE file. use crate::{DiskExt, DiskKind}; use std::ffi::{OsStr, OsString}; use std::path::{Path, PathBuf}; use super::utils::c_buf_to_str; #[doc = include_str!("../../md_doc/disk.md")] pub struct Disk { name: OsString, c_mount_point: Vec, mount_point: PathBuf, total_space: u64, available_space: u64, file_system: Vec, is_removable: bool, } impl DiskExt for Disk { fn kind(&self) -> DiskKind { DiskKind::Unknown(-1) } fn name(&self) -> &OsStr { &self.name } fn file_system(&self) -> &[u8] { &self.file_system } fn mount_point(&self) -> &Path { &self.mount_point } fn total_space(&self) -> u64 { self.total_space } fn available_space(&self) -> u64 { self.available_space } fn is_removable(&self) -> bool { self.is_removable } fn refresh(&mut self) -> bool { unsafe { let mut vfs: libc::statvfs = std::mem::zeroed(); refresh_disk(self, &mut vfs) } } } // FIXME: if you want to get disk I/O usage: // statfs.[f_syncwrites, f_asyncwrites, f_syncreads, f_asyncreads] unsafe fn refresh_disk(disk: &mut Disk, vfs: &mut libc::statvfs) -> bool { if libc::statvfs(disk.c_mount_point.as_ptr() as *const _, vfs) < 0 { return false; } let f_frsize: u64 = vfs.f_frsize as _; disk.total_space = vfs.f_blocks.saturating_mul(f_frsize); disk.available_space = vfs.f_favail.saturating_mul(f_frsize); true } pub unsafe fn get_all_disks() -> Vec { let mut fs_infos: *mut libc::statfs = std::ptr::null_mut(); let count = libc::getmntinfo(&mut fs_infos, libc::MNT_WAIT); if count < 1 { return Vec::new(); } let mut vfs: libc::statvfs = std::mem::zeroed(); let fs_infos: &[libc::statfs] = std::slice::from_raw_parts(fs_infos as _, count as _); let mut disks = Vec::new(); for fs_info in fs_infos { if fs_info.f_mntfromname[0] == 0 || fs_info.f_mntonname[0] == 0 { // If we have missing information, no need to look any further... continue; } let fs_type: &[libc::c_char] = if let Some(pos) = fs_info.f_fstypename.iter().position(|x| *x == 0) { &fs_info.f_fstypename[..pos] } else { &fs_info.f_fstypename }; let fs_type: &[u8] = std::slice::from_raw_parts(fs_type.as_ptr() as _, fs_type.len()); match fs_type { b"autofs" | b"devfs" | b"linprocfs" | b"procfs" | b"fdesckfs" | b"tmpfs" | b"linsysfs" => { sysinfo_debug!( "Memory filesystem `{:?}`, ignoring it.", c_buf_to_str(&fs_info.f_fstypename).unwrap(), ); continue; } _ => {} } if libc::statvfs(fs_info.f_mntonname.as_ptr(), &mut vfs) != 0 { continue; } let mount_point = match c_buf_to_str(&fs_info.f_mntonname) { Some(m) => m, None => { sysinfo_debug!("Cannot get disk mount point, ignoring it."); continue; } }; let name = if mount_point == "/" { OsString::from("root") } else { OsString::from(mount_point) }; // USB keys and CDs are removable. let is_removable = [b"USB", b"usb"].iter().any(|b| b == &fs_type) || fs_type.starts_with(b"/dev/cd"); let f_frsize: u64 = vfs.f_frsize as _; disks.push(Disk { name, c_mount_point: fs_info.f_mntonname.to_vec(), mount_point: PathBuf::from(mount_point), total_space: vfs.f_blocks.saturating_mul(f_frsize), available_space: vfs.f_favail.saturating_mul(f_frsize), file_system: fs_type.to_vec(), is_removable, }); } disks }