monitor.rs - mozsearch

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/* This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

use crate::transport::device_selector::DeviceSelectorEvent;

use libc::{c_int, c_short, c_ulong};

use libudev::EventType;

use runloop::RunLoop;

use std::collections::HashMap;

use std::error::Error;

use std::io;

use std::os::unix::io::AsRawFd;

use std::path::PathBuf;

use std::sync::{mpsc::Sender, Arc};

const UDEV_SUBSYSTEM: &str = "hidraw";

const POLLIN: c_short = 0x0001;

const POLL_TIMEOUT: c_int = 100;

fn poll(fds: &mut Vec<::libc::pollfd>) -> io::Result<()> {

    let nfds = fds.len() as c_ulong;

    let rv = unsafe { ::libc::poll((fds[..]).as_mut_ptr(), nfds, POLL_TIMEOUT) };

    if rv < 0 {

        Err(io::Error::from_raw_os_error(rv))

    } else {

        Ok(())

pub struct Monitor<F>

where

    F: Fn(PathBuf, Sender<DeviceSelectorEvent>, Sender<crate::StatusUpdate>, &dyn Fn() -> bool)

        + Sync,

    runloops: HashMap<PathBuf, RunLoop>,

    new_device_cb: Arc<F>,

    selector_sender: Sender<DeviceSelectorEvent>,

    status_sender: Sender<crate::StatusUpdate>,

impl<F> Monitor<F>

where

    F: Fn(PathBuf, Sender<DeviceSelectorEvent>, Sender<crate::StatusUpdate>, &dyn Fn() -> bool)

        + Send

        + Sync

        + 'static,

    pub fn new(

        new_device_cb: F,

        selector_sender: Sender<DeviceSelectorEvent>,

        status_sender: Sender<crate::StatusUpdate>,

    ) -> Self {

        Self {

            runloops: HashMap::new(),

            new_device_cb: Arc::new(new_device_cb),

            selector_sender,

            status_sender,

    pub fn run(&mut self, alive: &dyn Fn() -> bool) -> Result<(), Box<dyn Error>> {

        let ctx = libudev::Context::new()?;

        let mut enumerator = libudev::Enumerator::new(&ctx)?;

        enumerator.match_subsystem(UDEV_SUBSYSTEM)?;

        // Iterate all existing devices.

        let paths: Vec<PathBuf> = enumerator

            .scan_devices()?

            .filter_map(|dev| dev.devnode().map(|p| p.to_owned()))

            .collect();

        // Add them all in one go to avoid race conditions in DeviceSelector

        // (8 devices should be added, but the first returns already before all

        // others are known to DeviceSelector)

        self.selector_sender

            .send(DeviceSelectorEvent::DevicesAdded(paths.clone()))?;

        for path in paths {

            self.add_device(path);

        let mut monitor = libudev::Monitor::new(&ctx)?;

        monitor.match_subsystem(UDEV_SUBSYSTEM)?;

        // Start listening for new devices.

        let mut socket = monitor.listen()?;

        let mut fds = vec![::libc::pollfd {

            fd: socket.as_raw_fd(),

            events: POLLIN,

            revents: 0,

}];

        while alive() {

            // Wait for new events, break on failure.

            poll(&mut fds)?;

            if let Some(event) = socket.receive_event() {

                self.process_event(&event);

        // Remove all tracked devices.

        self.remove_all_devices();

        Ok(())

    fn process_event(&mut self, event: &libudev::Event) {

        let path = event.device().devnode().map(|dn| dn.to_owned());

        match (event.event_type(), path) {

            (EventType::Add, Some(path)) => {

                let _ = self

                    .selector_sender

                    .send(DeviceSelectorEvent::DevicesAdded(vec![path.clone()]));

                self.add_device(path);

            (EventType::Remove, Some(path)) => {

                self.remove_device(&path);

            _ => { /* ignore other types and failures */ }

    fn add_device(&mut self, path: PathBuf) {

        let f = self.new_device_cb.clone();

        let key = path.clone();

        let selector_sender = self.selector_sender.clone();

        let status_sender = self.status_sender.clone();

        debug!("Adding device {}", path.to_string_lossy());

        let runloop = RunLoop::new(move |alive| {

            if alive() {

                f(path, selector_sender, status_sender, alive);

});

        if let Ok(runloop) = runloop {

            self.runloops.insert(key, runloop);

    fn remove_device(&mut self, path: &PathBuf) {

        let _ = self

            .selector_sender

            .send(DeviceSelectorEvent::DeviceRemoved(path.clone()));

        debug!("Removing device {}", path.to_string_lossy());

        if let Some(runloop) = self.runloops.remove(path) {

            runloop.cancel();

    fn remove_all_devices(&mut self) {

        while !self.runloops.is_empty() {

            let path = self.runloops.keys().next().unwrap().clone();

            self.remove_device(&path);

pub fn get_property_linux(path: &PathBuf, prop_name: &str) -> io::Result<String> {

    let ctx = libudev::Context::new()?;

    let mut enumerator = libudev::Enumerator::new(&ctx)?;

    enumerator.match_subsystem(UDEV_SUBSYSTEM)?;

    // Iterate all existing devices, since we don't have a syspath

    // and libudev-rs doesn't implement opening by devnode.

    for dev in enumerator.scan_devices()? {

        if dev.devnode().is_some() && dev.devnode().unwrap() == path {

            debug!(

                "get_property_linux Querying property {} from {}",

                prop_name,

                dev.syspath().display()

);

            let value = dev

                .attribute_value(prop_name)

                .ok_or(io::ErrorKind::Other)?

                .to_string_lossy();

            debug!("get_property_linux Fetched Result, {}={}", prop_name, value);

            return Ok(value.to_string());

    Err(io::Error::new(

        io::ErrorKind::Other,

        "Unable to find device",

))