vhost/src/lib.rs - platform/external/crosvm - Git at Google

 // Copyright 2017 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 pub mod net;
 mod vsock;

 pub use crate::net::Net;
 pub use crate::net::NetT;
 pub use crate::vsock::Vsock;

 use std::alloc::Layout;
 use std::fmt::{self, Display};
 use std::io::Error as IoError;
 use std::mem;
 use std::ptr::null;

 use assertions::const_assert;
 use base::{ioctl, ioctl_with_mut_ref, ioctl_with_ptr, ioctl_with_ref};
 use base::{AsRawDescriptor, Event, LayoutAllocation};
 use vm_memory::{GuestAddress, GuestMemory, GuestMemoryError};

 #[derive(Debug)]
 pub enum Error {
     /// Error opening vhost device.
     VhostOpen(IoError),
     /// Error while running ioctl.
     IoctlError(IoError),
     /// Invalid queue.
     InvalidQueue,
     /// Invalid descriptor table address.
     DescriptorTableAddress(GuestMemoryError),
     /// Invalid used address.
     UsedAddress(GuestMemoryError),
     /// Invalid available address.
     AvailAddress(GuestMemoryError),
     /// Invalid log address.
     LogAddress(GuestMemoryError),
 }
 pub type Result<T> = std::result::Result<T, Error>;

 impl Display for Error {
     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
         use self::Error::*;

         match self {
             VhostOpen(e) => write!(f, "failed to open vhost device: {}", e),
             IoctlError(e) => write!(f, "failed to run ioctl: {}", e),
             InvalidQueue => write!(f, "invalid queue"),
             DescriptorTableAddress(e) => write!(f, "invalid descriptor table address: {}", e),
             UsedAddress(e) => write!(f, "invalid used address: {}", e),
             AvailAddress(e) => write!(f, "invalid available address: {}", e),
             LogAddress(e) => write!(f, "invalid log address: {}", e),
         }
     }
 }

 fn ioctl_result<T>() -> Result<T> {
     Err(Error::IoctlError(IoError::last_os_error()))
 }

 /// An interface for setting up vhost-based virtio devices.  Vhost-based devices are different
 /// from regular virtio devices because the host kernel takes care of handling all the data
 /// transfer.  The device itself only needs to deal with setting up the kernel driver and
 /// managing the control channel.
 pub trait Vhost: AsRawDescriptor + std::marker::Sized {
     /// Get the guest memory mapping.
     fn mem(&self) -> &GuestMemory;

     /// Set the current process as the owner of this file descriptor.
     /// This must be run before any other vhost ioctls.
     fn set_owner(&self) -> Result<()> {
         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl(self, virtio_sys::VHOST_SET_OWNER()) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     /// Get a bitmask of supported virtio/vhost features.
     fn get_features(&self) -> Result<u64> {
         let mut avail_features: u64 = 0;
         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe {
             ioctl_with_mut_ref(self, virtio_sys::VHOST_GET_FEATURES(), &mut avail_features)
         };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(avail_features)
     }

     /// Inform the vhost subsystem which features to enable. This should be a subset of
     /// supported features from VHOST_GET_FEATURES.
     ///
     /// # Arguments
     /// * `features` - Bitmask of features to set.
     fn set_features(&self, features: u64) -> Result<()> {
         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_FEATURES(), &features) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     /// Set the guest memory mappings for vhost to use.
     fn set_mem_table(&self) -> Result<()> {
         const SIZE_OF_MEMORY: usize = mem::size_of::<virtio_sys::vhost_memory>();
         const SIZE_OF_REGION: usize = mem::size_of::<virtio_sys::vhost_memory_region>();
         const ALIGN_OF_MEMORY: usize = mem::align_of::<virtio_sys::vhost_memory>();
         const ALIGN_OF_REGION: usize = mem::align_of::<virtio_sys::vhost_memory_region>();
         const_assert!(ALIGN_OF_MEMORY >= ALIGN_OF_REGION);

         let num_regions = self.mem().num_regions() as usize;
         let size = SIZE_OF_MEMORY + num_regions * SIZE_OF_REGION;
         let layout = Layout::from_size_align(size, ALIGN_OF_MEMORY).expect("impossible layout");
         let mut allocation = LayoutAllocation::zeroed(layout);

         // Safe to obtain an exclusive reference because there are no other
         // references to the allocation yet and all-zero is a valid bit pattern.
         let vhost_memory = unsafe { allocation.as_mut::<virtio_sys::vhost_memory>() };

         vhost_memory.nregions = num_regions as u32;
         // regions is a zero-length array, so taking a mut slice requires that
         // we correctly specify the size to match the amount of backing memory.
         let vhost_regions = unsafe { vhost_memory.regions.as_mut_slice(num_regions as usize) };

         let _ = self
             .mem()
             .with_regions::<_, ()>(|index, guest_addr, size, host_addr, _, _| {
                 vhost_regions[index] = virtio_sys::vhost_memory_region {
                     guest_phys_addr: guest_addr.offset() as u64,
                     memory_size: size as u64,
                     userspace_addr: host_addr as u64,
                     flags_padding: 0u64,
                 };
                 Ok(())
             });

         // This ioctl is called with a pointer that is valid for the lifetime
         // of this function. The kernel will make its own copy of the memory
         // tables. As always, check the return value.
         let ret = unsafe { ioctl_with_ptr(self, virtio_sys::VHOST_SET_MEM_TABLE(), vhost_memory) };
         if ret < 0 {
             return ioctl_result();
         }

         Ok(())

         // vhost_memory allocation is deallocated.
     }

     /// Set the number of descriptors in the vring.
     ///
     /// # Arguments
     /// * `queue_index` - Index of the queue to set descriptor count for.
     /// * `num` - Number of descriptors in the queue.
     fn set_vring_num(&self, queue_index: usize, num: u16) -> Result<()> {
         let vring_state = virtio_sys::vhost_vring_state {
             index: queue_index as u32,
             num: num as u32,
         };

         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_NUM(), &vring_state) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     // TODO(smbarber): This is copypasta. Eliminate the copypasta.
     #[allow(clippy::if_same_then_else)]
     fn is_valid(
         &self,
         queue_max_size: u16,
         queue_size: u16,
         desc_addr: GuestAddress,
         avail_addr: GuestAddress,
         used_addr: GuestAddress,
     ) -> bool {
         let desc_table_size = 16 * queue_size as usize;
         let avail_ring_size = 6 + 2 * queue_size as usize;
         let used_ring_size = 6 + 8 * queue_size as usize;
         if queue_size > queue_max_size || queue_size == 0 || (queue_size & (queue_size - 1)) != 0 {
             false
         } else if desc_addr
             .checked_add(desc_table_size as u64)
             .map_or(true, |v| !self.mem().address_in_range(v))
         {
             false
         } else if avail_addr
             .checked_add(avail_ring_size as u64)
             .map_or(true, |v| !self.mem().address_in_range(v))
         {
             false
         } else if used_addr
             .checked_add(used_ring_size as u64)
             .map_or(true, |v| !self.mem().address_in_range(v))
         {
             false
         } else {
             true
         }
     }

     /// Set the addresses for a given vring.
     ///
     /// # Arguments
     /// * `queue_max_size` - Maximum queue size supported by the device.
     /// * `queue_size` - Actual queue size negotiated by the driver.
     /// * `queue_index` - Index of the queue to set addresses for.
     /// * `flags` - Bitmask of vring flags.
     /// * `desc_addr` - Descriptor table address.
     /// * `used_addr` - Used ring buffer address.
     /// * `avail_addr` - Available ring buffer address.
     /// * `log_addr` - Optional address for logging.
     fn set_vring_addr(
         &self,
         queue_max_size: u16,
         queue_size: u16,
         queue_index: usize,
         flags: u32,
         desc_addr: GuestAddress,
         used_addr: GuestAddress,
         avail_addr: GuestAddress,
         log_addr: Option<GuestAddress>,
     ) -> Result<()> {
         // TODO(smbarber): Refactor out virtio from crosvm so we can
         // validate a Queue struct directly.
         if !self.is_valid(queue_max_size, queue_size, desc_addr, used_addr, avail_addr) {
             return Err(Error::InvalidQueue);
         }

         let desc_addr = self
             .mem()
             .get_host_address(desc_addr)
             .map_err(Error::DescriptorTableAddress)?;
         let used_addr = self
             .mem()
             .get_host_address(used_addr)
             .map_err(Error::UsedAddress)?;
         let avail_addr = self
             .mem()
             .get_host_address(avail_addr)
             .map_err(Error::AvailAddress)?;
         let log_addr = match log_addr {
             None => null(),
             Some(a) => self.mem().get_host_address(a).map_err(Error::LogAddress)?,
         };

         let vring_addr = virtio_sys::vhost_vring_addr {
             index: queue_index as u32,
             flags,
             desc_user_addr: desc_addr as u64,
             used_user_addr: used_addr as u64,
             avail_user_addr: avail_addr as u64,
             log_guest_addr: log_addr as u64,
         };

         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_ADDR(), &vring_addr) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     /// Set the first index to look for available descriptors.
     ///
     /// # Arguments
     /// * `queue_index` - Index of the queue to modify.
     /// * `num` - Index where available descriptors start.
     fn set_vring_base(&self, queue_index: usize, num: u16) -> Result<()> {
         let vring_state = virtio_sys::vhost_vring_state {
             index: queue_index as u32,
             num: num as u32,
         };

         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_BASE(), &vring_state) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     /// Set the event to trigger when buffers have been used by the host.
     ///
     /// # Arguments
     /// * `queue_index` - Index of the queue to modify.
     /// * `event` - Event to trigger.
     fn set_vring_call(&self, queue_index: usize, event: &Event) -> Result<()> {
         let vring_file = virtio_sys::vhost_vring_file {
             index: queue_index as u32,
             event: event.as_raw_descriptor(),
         };

         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_CALL(), &vring_file) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }

     /// Set the event that will be signaled by the guest when buffers are
     /// available for the host to process.
     ///
     /// # Arguments
     /// * `queue_index` - Index of the queue to modify.
     /// * `fd` - Event that will be signaled from guest.
     fn set_vring_kick(&self, queue_index: usize, event: &Event) -> Result<()> {
         let vring_file = virtio_sys::vhost_vring_file {
             index: queue_index as u32,
             event: event.as_raw_descriptor(),
         };

         // This ioctl is called on a valid vhost_net fd and has its
         // return value checked.
         let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_KICK(), &vring_file) };
         if ret < 0 {
             return ioctl_result();
         }
         Ok(())
     }
 }

 #[cfg(test)]
 mod tests {
     use super::*;

     use crate::net::fakes::FakeNet;
     use net_util::fakes::FakeTap;
     use std::{path::PathBuf, result};
     use vm_memory::{GuestAddress, GuestMemory, GuestMemoryError};

     fn create_guest_memory() -> result::Result<GuestMemory, GuestMemoryError> {
         let start_addr1 = GuestAddress(0x0);
         let start_addr2 = GuestAddress(0x1000);
         GuestMemory::new(&vec![(start_addr1, 0x1000), (start_addr2, 0x4000)])
     }

     fn assert_ok_or_known_failure<T>(res: Result<T>) {
         match &res {
             // FakeNet won't respond to ioctl's
             Ok(_t) => {}
             Err(Error::IoctlError(ioe)) if ioe.raw_os_error().unwrap() == 25 => {}
             Err(e) => panic!("Unexpected Error:\n{}", e),
         }
     }

     fn create_fake_vhost_net() -> FakeNet<FakeTap> {
         let gm = create_guest_memory().unwrap();
         FakeNet::<FakeTap>::new(&PathBuf::from(""), &gm).unwrap()
     }

     #[test]
     fn test_create_fake_vhost_net() {
         create_fake_vhost_net();
     }

     #[test]
     fn set_owner() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_owner();
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn get_features() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.get_features();
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_features() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_features(0);
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_mem_table() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_mem_table();
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_vring_num() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_vring_num(0, 1);
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_vring_addr() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_vring_addr(
             1,
             1,
             0,
             0x0,
             GuestAddress(0x0),
             GuestAddress(0x0),
             GuestAddress(0x0),
             None,
         );
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_vring_base() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_vring_base(0, 1);
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_vring_call() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_vring_call(0, &Event::new().unwrap());
         assert_ok_or_known_failure(res);
     }

     #[test]
     fn set_vring_kick() {
         let vhost_net = create_fake_vhost_net();
         let res = vhost_net.set_vring_kick(0, &Event::new().unwrap());
         assert_ok_or_known_failure(res);
     }
 }
	// Copyright 2017 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	pub mod net;
	mod vsock;

	pub use crate::net::Net;
	pub use crate::net::NetT;
	pub use crate::vsock::Vsock;

	use std::alloc::Layout;
	use std::fmt::{self, Display};
	use std::io::Error as IoError;
	use std::mem;
	use std::ptr::null;

	use assertions::const_assert;
	use base::{ioctl, ioctl_with_mut_ref, ioctl_with_ptr, ioctl_with_ref};
	use base::{AsRawDescriptor, Event, LayoutAllocation};
	use vm_memory::{GuestAddress, GuestMemory, GuestMemoryError};

	#[derive(Debug)]
	pub enum Error {
	/// Error opening vhost device.
	VhostOpen(IoError),
	/// Error while running ioctl.
	IoctlError(IoError),
	/// Invalid queue.
	InvalidQueue,
	/// Invalid descriptor table address.
	DescriptorTableAddress(GuestMemoryError),
	/// Invalid used address.
	UsedAddress(GuestMemoryError),
	/// Invalid available address.
	AvailAddress(GuestMemoryError),
	/// Invalid log address.
	LogAddress(GuestMemoryError),
	}
	pub type Result<T> = std::result::Result<T, Error>;

	impl Display for Error {
	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
	use self::Error::*;

	match self {
	VhostOpen(e) => write!(f, "failed to open vhost device: {}", e),
	IoctlError(e) => write!(f, "failed to run ioctl: {}", e),
	InvalidQueue => write!(f, "invalid queue"),
	DescriptorTableAddress(e) => write!(f, "invalid descriptor table address: {}", e),
	UsedAddress(e) => write!(f, "invalid used address: {}", e),
	AvailAddress(e) => write!(f, "invalid available address: {}", e),
	LogAddress(e) => write!(f, "invalid log address: {}", e),
	}
	}
	}

	fn ioctl_result<T>() -> Result<T> {
	Err(Error::IoctlError(IoError::last_os_error()))
	}

	/// An interface for setting up vhost-based virtio devices. Vhost-based devices are different
	/// from regular virtio devices because the host kernel takes care of handling all the data
	/// transfer. The device itself only needs to deal with setting up the kernel driver and
	/// managing the control channel.
	pub trait Vhost: AsRawDescriptor + std::marker::Sized {
	/// Get the guest memory mapping.
	fn mem(&self) -> &GuestMemory;

	/// Set the current process as the owner of this file descriptor.
	/// This must be run before any other vhost ioctls.
	fn set_owner(&self) -> Result<()> {
	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl(self, virtio_sys::VHOST_SET_OWNER()) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	/// Get a bitmask of supported virtio/vhost features.
	fn get_features(&self) -> Result<u64> {
	let mut avail_features: u64 = 0;
	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe {
	ioctl_with_mut_ref(self, virtio_sys::VHOST_GET_FEATURES(), &mut avail_features)
	};
	if ret < 0 {
	return ioctl_result();
	}
	Ok(avail_features)
	}

	/// Inform the vhost subsystem which features to enable. This should be a subset of
	/// supported features from VHOST_GET_FEATURES.
	///
	/// # Arguments
	/// * `features` - Bitmask of features to set.
	fn set_features(&self, features: u64) -> Result<()> {
	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_FEATURES(), &features) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	/// Set the guest memory mappings for vhost to use.
	fn set_mem_table(&self) -> Result<()> {
	const SIZE_OF_MEMORY: usize = mem::size_of::<virtio_sys::vhost_memory>();
	const SIZE_OF_REGION: usize = mem::size_of::<virtio_sys::vhost_memory_region>();
	const ALIGN_OF_MEMORY: usize = mem::align_of::<virtio_sys::vhost_memory>();
	const ALIGN_OF_REGION: usize = mem::align_of::<virtio_sys::vhost_memory_region>();
	const_assert!(ALIGN_OF_MEMORY >= ALIGN_OF_REGION);

	let num_regions = self.mem().num_regions() as usize;
	let size = SIZE_OF_MEMORY + num_regions * SIZE_OF_REGION;
	let layout = Layout::from_size_align(size, ALIGN_OF_MEMORY).expect("impossible layout");
	let mut allocation = LayoutAllocation::zeroed(layout);

	// Safe to obtain an exclusive reference because there are no other
	// references to the allocation yet and all-zero is a valid bit pattern.
	let vhost_memory = unsafe { allocation.as_mut::<virtio_sys::vhost_memory>() };

	vhost_memory.nregions = num_regions as u32;
	// regions is a zero-length array, so taking a mut slice requires that
	// we correctly specify the size to match the amount of backing memory.
	let vhost_regions = unsafe { vhost_memory.regions.as_mut_slice(num_regions as usize) };

	let _ = self
	.mem()
	.with_regions::<_, ()>(\|index, guest_addr, size, host_addr, _, _\| {
	vhost_regions[index] = virtio_sys::vhost_memory_region {
	guest_phys_addr: guest_addr.offset() as u64,
	memory_size: size as u64,
	userspace_addr: host_addr as u64,
	flags_padding: 0u64,
	};
	Ok(())
	});

	// This ioctl is called with a pointer that is valid for the lifetime
	// of this function. The kernel will make its own copy of the memory
	// tables. As always, check the return value.
	let ret = unsafe { ioctl_with_ptr(self, virtio_sys::VHOST_SET_MEM_TABLE(), vhost_memory) };
	if ret < 0 {
	return ioctl_result();
	}

	Ok(())

	// vhost_memory allocation is deallocated.
	}

	/// Set the number of descriptors in the vring.
	///
	/// # Arguments
	/// * `queue_index` - Index of the queue to set descriptor count for.
	/// * `num` - Number of descriptors in the queue.
	fn set_vring_num(&self, queue_index: usize, num: u16) -> Result<()> {
	let vring_state = virtio_sys::vhost_vring_state {
	index: queue_index as u32,
	num: num as u32,
	};

	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_NUM(), &vring_state) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	// TODO(smbarber): This is copypasta. Eliminate the copypasta.
	#[allow(clippy::if_same_then_else)]
	fn is_valid(
	&self,
	queue_max_size: u16,
	queue_size: u16,
	desc_addr: GuestAddress,
	avail_addr: GuestAddress,
	used_addr: GuestAddress,
	) -> bool {
	let desc_table_size = 16 * queue_size as usize;
	let avail_ring_size = 6 + 2 * queue_size as usize;
	let used_ring_size = 6 + 8 * queue_size as usize;
	if queue_size > queue_max_size \|\| queue_size == 0 \|\| (queue_size & (queue_size - 1)) != 0 {
	false
	} else if desc_addr
	.checked_add(desc_table_size as u64)
	.map_or(true, \|v\| !self.mem().address_in_range(v))
	{
	false
	} else if avail_addr
	.checked_add(avail_ring_size as u64)
	.map_or(true, \|v\| !self.mem().address_in_range(v))
	{
	false
	} else if used_addr
	.checked_add(used_ring_size as u64)
	.map_or(true, \|v\| !self.mem().address_in_range(v))
	{
	false
	} else {
	true
	}
	}

	/// Set the addresses for a given vring.
	///
	/// # Arguments
	/// * `queue_max_size` - Maximum queue size supported by the device.
	/// * `queue_size` - Actual queue size negotiated by the driver.
	/// * `queue_index` - Index of the queue to set addresses for.
	/// * `flags` - Bitmask of vring flags.
	/// * `desc_addr` - Descriptor table address.
	/// * `used_addr` - Used ring buffer address.
	/// * `avail_addr` - Available ring buffer address.
	/// * `log_addr` - Optional address for logging.
	fn set_vring_addr(
	&self,
	queue_max_size: u16,
	queue_size: u16,
	queue_index: usize,
	flags: u32,
	desc_addr: GuestAddress,
	used_addr: GuestAddress,
	avail_addr: GuestAddress,
	log_addr: Option<GuestAddress>,
	) -> Result<()> {
	// TODO(smbarber): Refactor out virtio from crosvm so we can
	// validate a Queue struct directly.
	if !self.is_valid(queue_max_size, queue_size, desc_addr, used_addr, avail_addr) {
	return Err(Error::InvalidQueue);
	}

	let desc_addr = self
	.mem()
	.get_host_address(desc_addr)
	.map_err(Error::DescriptorTableAddress)?;
	let used_addr = self
	.mem()
	.get_host_address(used_addr)
	.map_err(Error::UsedAddress)?;
	let avail_addr = self
	.mem()
	.get_host_address(avail_addr)
	.map_err(Error::AvailAddress)?;
	let log_addr = match log_addr {
	None => null(),
	Some(a) => self.mem().get_host_address(a).map_err(Error::LogAddress)?,
	};

	let vring_addr = virtio_sys::vhost_vring_addr {
	index: queue_index as u32,
	flags,
	desc_user_addr: desc_addr as u64,
	used_user_addr: used_addr as u64,
	avail_user_addr: avail_addr as u64,
	log_guest_addr: log_addr as u64,
	};

	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_ADDR(), &vring_addr) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	/// Set the first index to look for available descriptors.
	///
	/// # Arguments
	/// * `queue_index` - Index of the queue to modify.
	/// * `num` - Index where available descriptors start.
	fn set_vring_base(&self, queue_index: usize, num: u16) -> Result<()> {
	let vring_state = virtio_sys::vhost_vring_state {
	index: queue_index as u32,
	num: num as u32,
	};

	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_BASE(), &vring_state) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	/// Set the event to trigger when buffers have been used by the host.
	///
	/// # Arguments
	/// * `queue_index` - Index of the queue to modify.
	/// * `event` - Event to trigger.
	fn set_vring_call(&self, queue_index: usize, event: &Event) -> Result<()> {
	let vring_file = virtio_sys::vhost_vring_file {
	index: queue_index as u32,
	event: event.as_raw_descriptor(),
	};

	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_CALL(), &vring_file) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}

	/// Set the event that will be signaled by the guest when buffers are
	/// available for the host to process.
	///
	/// # Arguments
	/// * `queue_index` - Index of the queue to modify.
	/// * `fd` - Event that will be signaled from guest.
	fn set_vring_kick(&self, queue_index: usize, event: &Event) -> Result<()> {
	let vring_file = virtio_sys::vhost_vring_file {
	index: queue_index as u32,
	event: event.as_raw_descriptor(),
	};

	// This ioctl is called on a valid vhost_net fd and has its
	// return value checked.
	let ret = unsafe { ioctl_with_ref(self, virtio_sys::VHOST_SET_VRING_KICK(), &vring_file) };
	if ret < 0 {
	return ioctl_result();
	}
	Ok(())
	}
	}

	#[cfg(test)]
	mod tests {
	use super::*;

	use crate::net::fakes::FakeNet;
	use net_util::fakes::FakeTap;
	use std::{path::PathBuf, result};
	use vm_memory::{GuestAddress, GuestMemory, GuestMemoryError};

	fn create_guest_memory() -> result::Result<GuestMemory, GuestMemoryError> {
	let start_addr1 = GuestAddress(0x0);
	let start_addr2 = GuestAddress(0x1000);
	GuestMemory::new(&vec![(start_addr1, 0x1000), (start_addr2, 0x4000)])
	}

	fn assert_ok_or_known_failure<T>(res: Result<T>) {
	match &res {
	// FakeNet won't respond to ioctl's
	Ok(_t) => {}
	Err(Error::IoctlError(ioe)) if ioe.raw_os_error().unwrap() == 25 => {}
	Err(e) => panic!("Unexpected Error:\n{}", e),
	}
	}

	fn create_fake_vhost_net() -> FakeNet<FakeTap> {
	let gm = create_guest_memory().unwrap();
	FakeNet::<FakeTap>::new(&PathBuf::from(""), &gm).unwrap()
	}

	#[test]
	fn test_create_fake_vhost_net() {
	create_fake_vhost_net();
	}

	#[test]
	fn set_owner() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_owner();
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn get_features() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.get_features();
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_features() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_features(0);
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_mem_table() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_mem_table();
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_vring_num() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_vring_num(0, 1);
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_vring_addr() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_vring_addr(
	1,
	1,
	0,
	0x0,
	GuestAddress(0x0),
	GuestAddress(0x0),
	GuestAddress(0x0),
	None,
	);
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_vring_base() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_vring_base(0, 1);
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_vring_call() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_vring_call(0, &Event::new().unwrap());
	assert_ok_or_known_failure(res);
	}

	#[test]
	fn set_vring_kick() {
	let vhost_net = create_fake_vhost_net();
	let res = vhost_net.set_vring_kick(0, &Event::new().unwrap());
	assert_ok_or_known_failure(res);
	}
	}