// Copyright 2024 Red Hat, Inc. // Author(s): Paolo Bonzini // SPDX-License-Identifier: GPL-2.0-or-later //! Bindings for character devices //! //! Character devices in QEMU can run under the big QEMU lock or in a separate //! `GMainContext`. Here we only support the former, because the bindings //! enforce that the BQL is taken whenever the functions in [`CharBackend`] are //! called. use std::{ ffi::CStr, fmt::{self, Debug}, io::{self, ErrorKind, Write}, marker::PhantomPinned, os::raw::{c_int, c_void}, ptr::addr_of_mut, slice, }; use crate::{ bindings, callbacks::FnCall, cell::{BqlRefMut, Opaque}, prelude::*, }; /// A safe wrapper around [`bindings::Chardev`]. #[repr(transparent)] #[derive(qemu_api_macros::Wrapper)] pub struct Chardev(Opaque); pub type ChardevClass = bindings::ChardevClass; pub type Event = bindings::QEMUChrEvent; /// A safe wrapper around [`bindings::CharBackend`], denoting the character /// back-end that is used for example by a device. Compared to the /// underlying C struct it adds BQL protection, and is marked as pinned /// because the QOM object ([`bindings::Chardev`]) contains a pointer to /// the `CharBackend`. pub struct CharBackend { inner: BqlRefCell, _pin: PhantomPinned, } impl Write for BqlRefMut<'_, bindings::CharBackend> { fn flush(&mut self) -> io::Result<()> { Ok(()) } fn write(&mut self, buf: &[u8]) -> io::Result { let chr: &mut bindings::CharBackend = self; let len = buf.len().try_into().unwrap(); let r = unsafe { bindings::qemu_chr_fe_write(addr_of_mut!(*chr), buf.as_ptr(), len) }; errno::into_io_result(r).map(|cnt| cnt as usize) } fn write_all(&mut self, buf: &[u8]) -> io::Result<()> { let chr: &mut bindings::CharBackend = self; let len = buf.len().try_into().unwrap(); let r = unsafe { bindings::qemu_chr_fe_write_all(addr_of_mut!(*chr), buf.as_ptr(), len) }; errno::into_io_result(r).and_then(|cnt| { if cnt as usize == buf.len() { Ok(()) } else { Err(ErrorKind::WriteZero.into()) } }) } } impl Debug for CharBackend { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { // SAFETY: accessed just to print the values let chr = self.inner.as_ptr(); Debug::fmt(unsafe { &*chr }, f) } } // FIXME: use something like PinnedDrop from the pinned_init crate impl Drop for CharBackend { fn drop(&mut self) { self.disable_handlers(); } } impl CharBackend { /// Enable the front-end's character device handlers, if there is an /// associated `Chardev`. pub fn enable_handlers< 'chardev, 'owner: 'chardev, T, CanReceiveFn: for<'a> FnCall<(&'a T,), u32>, ReceiveFn: for<'a, 'b> FnCall<(&'a T, &'b [u8])>, EventFn: for<'a> FnCall<(&'a T, Event)>, >( // When "self" is dropped, the handlers are automatically disabled. // However, this is not necessarily true if the owner is dropped. // So require the owner to outlive the character device. &'chardev self, owner: &'owner T, _can_receive: CanReceiveFn, _receive: ReceiveFn, _event: EventFn, ) { unsafe extern "C" fn rust_can_receive_cb FnCall<(&'a T,), u32>>( opaque: *mut c_void, ) -> c_int { // SAFETY: the values are safe according to the contract of // enable_handlers() and qemu_chr_fe_set_handlers() let owner: &T = unsafe { &*(opaque.cast::()) }; let r = F::call((owner,)); r.try_into().unwrap() } unsafe extern "C" fn rust_receive_cb FnCall<(&'a T, &'b [u8])>>( opaque: *mut c_void, buf: *const u8, size: c_int, ) { // SAFETY: the values are safe according to the contract of // enable_handlers() and qemu_chr_fe_set_handlers() let owner: &T = unsafe { &*(opaque.cast::()) }; let buf = unsafe { slice::from_raw_parts(buf, size.try_into().unwrap()) }; F::call((owner, buf)) } unsafe extern "C" fn rust_event_cb FnCall<(&'a T, Event)>>( opaque: *mut c_void, event: Event, ) { // SAFETY: the values are safe according to the contract of // enable_handlers() and qemu_chr_fe_set_handlers() let owner: &T = unsafe { &*(opaque.cast::()) }; F::call((owner, event)) } let _: () = CanReceiveFn::ASSERT_IS_SOME; let receive_cb: Option = if ReceiveFn::is_some() { Some(rust_receive_cb::) } else { None }; let event_cb: Option = if EventFn::is_some() { Some(rust_event_cb::) } else { None }; let mut chr = self.inner.borrow_mut(); // SAFETY: the borrow promises that the BQL is taken unsafe { bindings::qemu_chr_fe_set_handlers( addr_of_mut!(*chr), Some(rust_can_receive_cb::), receive_cb, event_cb, None, (owner as *const T as *mut T).cast::(), core::ptr::null_mut(), true, ); } } /// Disable the front-end's character device handlers. pub fn disable_handlers(&self) { let mut chr = self.inner.borrow_mut(); // SAFETY: the borrow promises that the BQL is taken unsafe { bindings::qemu_chr_fe_set_handlers( addr_of_mut!(*chr), None, None, None, None, core::ptr::null_mut(), core::ptr::null_mut(), true, ); } } /// Notify that the frontend is ready to receive data. pub fn accept_input(&self) { let mut chr = self.inner.borrow_mut(); // SAFETY: the borrow promises that the BQL is taken unsafe { bindings::qemu_chr_fe_accept_input(addr_of_mut!(*chr)) } } /// Temporarily borrow the character device, allowing it to be used /// as an implementor of `Write`. Note that it is not valid to drop /// the big QEMU lock while the character device is borrowed, as /// that might cause C code to write to the character device. pub fn borrow_mut(&self) -> impl Write + '_ { self.inner.borrow_mut() } /// Send a continuous stream of zero bits on the line if `enabled` is /// true, or a short stream if `enabled` is false. pub fn send_break(&self, long: bool) -> io::Result<()> { let mut chr = self.inner.borrow_mut(); let mut duration: c_int = long.into(); // SAFETY: the borrow promises that the BQL is taken let r = unsafe { bindings::qemu_chr_fe_ioctl( addr_of_mut!(*chr), bindings::CHR_IOCTL_SERIAL_SET_BREAK as i32, addr_of_mut!(duration).cast::(), ) }; errno::into_io_result(r).map(|_| ()) } /// Write data to a character backend from the front end. This function /// will send data from the front end to the back end. Unlike /// `write`, this function will block if the back end cannot /// consume all of the data attempted to be written. /// /// Returns the number of bytes consumed (0 if no associated Chardev) or an /// error. pub fn write(&self, buf: &[u8]) -> io::Result { let len = buf.len().try_into().unwrap(); // SAFETY: qemu_chr_fe_write is thread-safe let r = unsafe { bindings::qemu_chr_fe_write(self.inner.as_ptr(), buf.as_ptr(), len) }; errno::into_io_result(r).map(|cnt| cnt as usize) } /// Write data to a character backend from the front end. This function /// will send data from the front end to the back end. Unlike /// `write`, this function will block if the back end cannot /// consume all of the data attempted to be written. /// /// Returns the number of bytes consumed (0 if no associated Chardev) or an /// error. pub fn write_all(&self, buf: &[u8]) -> io::Result<()> { let len = buf.len().try_into().unwrap(); // SAFETY: qemu_chr_fe_write_all is thread-safe let r = unsafe { bindings::qemu_chr_fe_write_all(self.inner.as_ptr(), buf.as_ptr(), len) }; errno::into_io_result(r).and_then(|cnt| { if cnt as usize == buf.len() { Ok(()) } else { Err(ErrorKind::WriteZero.into()) } }) } } unsafe impl ObjectType for Chardev { type Class = ChardevClass; const TYPE_NAME: &'static CStr = unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_CHARDEV) }; } qom_isa!(Chardev: Object);