use std::{ collections::HashMap, env, ffi::CString, fs, io::{stdout, IsTerminal}, path::{Path, PathBuf}, ptr, str, }; use anyhow::{ensure, Result}; use bch_bindgen::{bcachefs, bcachefs::bch_sb_handle, opt_set, path_to_cstr}; use clap::Parser; use log::{debug, info}; use uuid::Uuid; use crate::{ key::{KeyHandle, Passphrase, UnlockPolicy}, logging, }; fn mount_inner( src: String, target: impl AsRef, fstype: &str, mountflags: libc::c_ulong, data: Option, ) -> anyhow::Result<()> { // bind the CStrings to keep them alive let src = CString::new(src)?; let target = path_to_cstr(target); let data = data.map(CString::new).transpose()?; let fstype = CString::new(fstype)?; // convert to pointers for ffi let src = src.as_ptr(); let target = target.as_ptr(); let data = data.map_or(ptr::null(), |data| data.as_ptr().cast()); let fstype = fstype.as_ptr(); let ret = { info!("mounting filesystem"); // REQUIRES: CAP_SYS_ADMIN unsafe { libc::mount(src, target, fstype, mountflags, data) } }; match ret { 0 => Ok(()), _ => Err(crate::ErrnoError(errno::errno()).into()), } } /// Parse a comma-separated mount options and split out mountflags and filesystem /// specific options. fn parse_mount_options(options: impl AsRef) -> (Option, libc::c_ulong) { use either::Either::{Left, Right}; debug!("parsing mount options: {}", options.as_ref()); let (opts, flags) = options .as_ref() .split(',') .map(|o| match o { "dirsync" => Left(libc::MS_DIRSYNC), "lazytime" => Left(1 << 25), // MS_LAZYTIME "mand" => Left(libc::MS_MANDLOCK), "noatime" => Left(libc::MS_NOATIME), "nodev" => Left(libc::MS_NODEV), "nodiratime" => Left(libc::MS_NODIRATIME), "noexec" => Left(libc::MS_NOEXEC), "nosuid" => Left(libc::MS_NOSUID), "relatime" => Left(libc::MS_RELATIME), "remount" => Left(libc::MS_REMOUNT), "ro" => Left(libc::MS_RDONLY), "rw" | "" => Left(0), "strictatime" => Left(libc::MS_STRICTATIME), "sync" => Left(libc::MS_SYNCHRONOUS), o => Right(o), }) .fold((Vec::new(), 0), |(mut opts, flags), next| match next { Left(f) => (opts, flags | f), Right(o) => { opts.push(o); (opts, flags) } }); ( if opts.is_empty() { None } else { Some(opts.join(",")) }, flags, ) } fn read_super_silent(path: impl AsRef) -> anyhow::Result { let mut opts = bcachefs::bch_opts::default(); opt_set!(opts, noexcl, 1); bch_bindgen::sb_io::read_super_silent(path.as_ref(), opts) } fn device_property_map(dev: &udev::Device) -> HashMap { let rc: HashMap<_, _> = dev .properties() .map(|i| { ( String::from(i.name().to_string_lossy()), String::from(i.value().to_string_lossy()), ) }) .collect(); rc } fn udev_bcachefs_info() -> anyhow::Result>> { let mut info = HashMap::new(); if env::var("BCACHEFS_BLOCK_SCAN").is_ok() { debug!("Checking all block devices for bcachefs super block!"); return Ok(info); } let mut udev = udev::Enumerator::new()?; debug!("Walking udev db!"); udev.match_subsystem("block")?; udev.match_property("ID_FS_TYPE", "bcachefs")?; for m in udev .scan_devices()? .filter(udev::Device::is_initialized) .map(|dev| device_property_map(&dev)) .filter(|m| m.contains_key("ID_FS_UUID") && m.contains_key("DEVNAME")) { let fs_uuid = m["ID_FS_UUID"].clone(); let dev_node = m["DEVNAME"].clone(); info.insert(dev_node.clone(), vec![fs_uuid.clone()]); info.entry(fs_uuid).or_insert(vec![]).push(dev_node.clone()); } Ok(info) } fn get_super_blocks(uuid: Uuid, devices: &[String]) -> Vec<(PathBuf, bch_sb_handle)> { devices .iter() .filter_map(|dev| { read_super_silent(PathBuf::from(dev)) .ok() .map(|sb| (PathBuf::from(dev), sb)) }) .filter(|(_, sb)| sb.sb().uuid() == uuid) .collect::>() } fn get_all_block_devnodes() -> anyhow::Result> { let mut udev = udev::Enumerator::new()?; udev.match_subsystem("block")?; let devices = udev .scan_devices()? .filter_map(|dev| { if dev.is_initialized() { dev.devnode().map(|dn| dn.to_string_lossy().into_owned()) } else { None } }) .collect::>(); Ok(devices) } fn get_devices_by_uuid( udev_bcachefs: &HashMap>, uuid: Uuid, ) -> anyhow::Result> { let devices = { if !udev_bcachefs.is_empty() { let uuid_string = uuid.hyphenated().to_string(); if let Some(devices) = udev_bcachefs.get(&uuid_string) { devices.clone() } else { Vec::new() } } else { get_all_block_devnodes()? } }; Ok(get_super_blocks(uuid, &devices)) } #[allow(clippy::type_complexity)] fn get_uuid_for_dev_node( udev_bcachefs: &HashMap>, device: impl AsRef, ) -> Result<(Option, Option<(PathBuf, bch_sb_handle)>)> { let canonical = fs::canonicalize(device)?; if !udev_bcachefs.is_empty() { let dev_node_str = canonical.into_os_string().into_string().unwrap(); if udev_bcachefs.contains_key(&dev_node_str) && udev_bcachefs[&dev_node_str].len() == 1 { let uuid_str = udev_bcachefs[&dev_node_str][0].clone(); return Ok((Some(Uuid::parse_str(&uuid_str)?), None)); } } else { return read_super_silent(&canonical).map_or(Ok((None, None)), |sb| { Ok((Some(sb.sb().uuid()), Some((canonical, sb)))) }); } Ok((None, None)) } /// Mount a bcachefs filesystem by its UUID. #[derive(Parser, Debug)] #[command(author, version, about, long_about = None)] pub struct Cli { /// Path to passphrase file /// /// This can be used to optionally specify a file to read the passphrase /// from. An explictly specified key_location/unlock_policy overrides this /// argument. #[arg(short = 'f', long)] passphrase_file: Option, /// Passphrase policy to use in case of an encrypted filesystem. If not /// specified, the password will be searched for in the keyring. If not /// found, the password will be prompted or read from stdin, depending on /// whether the stdin is connected to a terminal or not. #[arg(short = 'k', long = "key_location", value_enum)] unlock_policy: Option, /// Device, or UUID=\ dev: String, /// Where the filesystem should be mounted. If not set, then the filesystem /// won't actually be mounted. But all steps preceeding mounting the /// filesystem (e.g. asking for passphrase) will still be performed. mountpoint: Option, /// Mount options #[arg(short, default_value = "")] options: String, // FIXME: would be nicer to have `--color[=WHEN]` like diff or ls? /// Force color on/off. Autodetect tty is used to define default: #[arg(short, long, action = clap::ArgAction::Set, default_value_t=stdout().is_terminal())] colorize: bool, /// Verbose mode #[arg(short, long, action = clap::ArgAction::Count)] verbose: u8, } fn devs_str_sbs_from_uuid( udev_info: &HashMap>, uuid: &str, ) -> anyhow::Result<(String, Vec)> { debug!("enumerating devices with UUID {}", uuid); let devs_sbs = Uuid::parse_str(uuid).map(|uuid| get_devices_by_uuid(udev_info, uuid))??; let devs_str = devs_sbs .iter() .map(|(dev, _)| dev.to_str().unwrap()) .collect::>() .join(":"); let sbs: Vec = devs_sbs.iter().map(|(_, sb)| *sb).collect(); Ok((devs_str, sbs)) } fn devs_str_sbs_from_device( udev_info: &HashMap>, device: impl AsRef, ) -> anyhow::Result<(String, Vec)> { let (uuid, sb_info) = get_uuid_for_dev_node(udev_info, device)?; match (uuid, sb_info) { (Some(uuid), Some((path, sb))) => { // If we have a super block, it implies we aren't using udev db. If we only need // 1 device to mount, we'll simply return it as we're done, else we'll use the uuid // to walk through all the block devices. debug!( "number of devices in this FS = {}", sb.sb().number_of_devices() ); if sb.sb().number_of_devices() == 1 { let dev = path.into_os_string().into_string().unwrap(); Ok((dev, vec![sb])) } else { devs_str_sbs_from_uuid(udev_info, &uuid.to_string()) } } (Some(uuid), None) => devs_str_sbs_from_uuid(udev_info, &uuid.to_string()), _ => Ok((String::new(), Vec::new())), } } /// If a user explicitly specifies `unlock_policy` or `passphrase_file` then use /// that without falling back to other mechanisms. If these options are not /// used, then search for the key or ask for it. fn handle_unlock(cli: &Cli, sb: &bch_sb_handle) -> Result { if let Some(policy) = cli.unlock_policy.as_ref() { return policy.apply(sb); } if let Some(path) = cli.passphrase_file.as_deref() { return Passphrase::new_from_file(path).and_then(|p| KeyHandle::new(sb, &p)); } KeyHandle::new_from_search(&sb.sb().uuid()) .or_else(|_| Passphrase::new().and_then(|p| KeyHandle::new(sb, &p))) } fn cmd_mount_inner(cli: &Cli) -> Result<()> { // Grab the udev information once let udev_info = udev_bcachefs_info()?; let (devices, sbs) = if let Some(("UUID" | "OLD_BLKID_UUID", uuid)) = cli.dev.split_once('=') { devs_str_sbs_from_uuid(&udev_info, uuid)? } else if cli.dev.contains(':') { // If the device string contains ":" we will assume the user knows the // entire list. If they supply a single device it could be either the FS // only has 1 device or it's only 1 of a number of devices which are // part of the FS. This appears to be the case when we get called during // fstab mount processing and the fstab specifies a UUID. let sbs = cli .dev .split(':') .map(read_super_silent) .collect::>>()?; (cli.dev.clone(), sbs) } else { devs_str_sbs_from_device(&udev_info, Path::new(&cli.dev))? }; ensure!(!sbs.is_empty(), "No device(s) to mount specified"); let first_sb = sbs[0]; if unsafe { bcachefs::bch2_sb_is_encrypted(first_sb.sb) } { handle_unlock(cli, &first_sb)?; } if let Some(mountpoint) = cli.mountpoint.as_deref() { info!( "mounting with params: device: {}, target: {}, options: {}", devices, mountpoint.to_string_lossy(), &cli.options ); let (data, mountflags) = parse_mount_options(&cli.options); mount_inner(devices, mountpoint, "bcachefs", mountflags, data) } else { info!( "would mount with params: device: {}, options: {}", devices, &cli.options ); Ok(()) } } pub fn mount(mut argv: Vec, symlink_cmd: Option<&str>) -> Result<()> { // If the bcachefs tool is being called as "bcachefs mount dev ..." (as opposed to via a // symlink like "/usr/sbin/mount.bcachefs dev ...", then we need to pop the 0th argument // ("bcachefs") since the CLI parser here expects the device at position 1. if symlink_cmd.is_none() { argv.remove(0); } let cli = Cli::parse_from(argv); // TODO: centralize this on the top level CLI logging::setup(cli.verbose, cli.colorize); cmd_mount_inner(&cli) }