// Copyright © 2022 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 // use crate::{ ActivateError, ActivateResult, GuestMemoryMmap, VirtioCommon, VirtioDevice, VirtioInterrupt, VirtioInterruptType, DEVICE_ACKNOWLEDGE, DEVICE_DRIVER, DEVICE_DRIVER_OK, DEVICE_FEATURES_OK, VIRTIO_F_IOMMU_PLATFORM, }; use std::{ io, result, sync::{atomic::Ordering, Arc, Mutex}, }; use thiserror::Error; use vhost::{ vdpa::{VhostVdpa, VhostVdpaIovaRange}, vhost_kern::vdpa::VhostKernVdpa, vhost_kern::VhostKernFeatures, VhostBackend, VringConfigData, }; use virtio_queue::{Descriptor, Queue, QueueT}; use vm_device::dma_mapping::ExternalDmaMapping; use vm_memory::{GuestAddress, GuestAddressSpace, GuestMemory, GuestMemoryAtomic}; use vm_virtio::{AccessPlatform, Translatable}; use vmm_sys_util::eventfd::EventFd; #[derive(Error, Debug)] pub enum Error { #[error("Failed to create vhost-vdpa: {0}")] CreateVhostVdpa(vhost::Error), #[error("Failed to map DMA range: {0}")] DmaMap(vhost::Error), #[error("Failed to unmap DMA range: {0}")] DmaUnmap(vhost::Error), #[error("Failed to get address range")] GetAddressRange, #[error("Failed to get the available index from the virtio queue: {0}")] GetAvailableIndex(virtio_queue::Error), #[error("Get virtio device identifier: {0}")] GetDeviceId(vhost::Error), #[error("Failed to get backend specific features: {0}")] GetBackendFeatures(vhost::Error), #[error("Failed to get virtio features: {0}")] GetFeatures(vhost::Error), #[error("Failed to get the IOVA range: {0}")] GetIovaRange(vhost::Error), #[error("Failed to get queue size: {0}")] GetVringNum(vhost::Error), #[error("Invalid IOVA range: {0}-{1}")] InvalidIovaRange(u64, u64), #[error("Missing VIRTIO_F_ACCESS_PLATFORM feature")] MissingAccessPlatformVirtioFeature, #[error("Failed to reset owner: {0}")] ResetOwner(vhost::Error), #[error("Failed to set backend specific features: {0}")] SetBackendFeatures(vhost::Error), #[error("Failed to set eventfd notifying about a configuration change: {0}")] SetConfigCall(vhost::Error), #[error("Failed to set virtio features: {0}")] SetFeatures(vhost::Error), #[error("Failed to set memory table: {0}")] SetMemTable(vhost::Error), #[error("Failed to set owner: {0}")] SetOwner(vhost::Error), #[error("Failed to set virtio status: {0}")] SetStatus(vhost::Error), #[error("Failed to set vring address: {0}")] SetVringAddr(vhost::Error), #[error("Failed to set vring base: {0}")] SetVringBase(vhost::Error), #[error("Failed to set vring eventfd when buffer are used: {0}")] SetVringCall(vhost::Error), #[error("Failed to enable/disable vring: {0}")] SetVringEnable(vhost::Error), #[error("Failed to set vring eventfd when new descriptors are available: {0}")] SetVringKick(vhost::Error), #[error("Failed to set vring size: {0}")] SetVringNum(vhost::Error), } pub type Result = std::result::Result; pub struct Vdpa { common: VirtioCommon, id: String, vhost: VhostKernVdpa>, iova_range: VhostVdpaIovaRange, enabled_num_queues: Option, backend_features: u64, } impl Vdpa { pub fn new( id: String, device_path: &str, mem: GuestMemoryAtomic, num_queues: u16, ) -> Result { let mut vhost = VhostKernVdpa::new(device_path, mem).map_err(Error::CreateVhostVdpa)?; vhost.set_owner().map_err(Error::SetOwner)?; let device_type = vhost.get_device_id().map_err(Error::GetDeviceId)?; let queue_size = vhost.get_vring_num().map_err(Error::GetVringNum)?; let avail_features = vhost.get_features().map_err(Error::GetFeatures)?; let backend_features = vhost .get_backend_features() .map_err(Error::GetBackendFeatures)?; vhost.set_backend_features_acked(backend_features); let iova_range = vhost.get_iova_range().map_err(Error::GetIovaRange)?; if avail_features & (1u64 << VIRTIO_F_IOMMU_PLATFORM) == 0 { return Err(Error::MissingAccessPlatformVirtioFeature); } Ok(Vdpa { common: VirtioCommon { device_type, queue_sizes: vec![queue_size; num_queues as usize], avail_features, min_queues: num_queues, ..Default::default() }, id, vhost, iova_range, enabled_num_queues: None, backend_features, }) } fn enable_vrings(&mut self, num_queues: usize, enable: bool) -> Result<()> { for queue_index in 0..num_queues { self.vhost .set_vring_enable(queue_index, enable) .map_err(Error::SetVringEnable)?; } self.enabled_num_queues = if enable { Some(num_queues) } else { None }; Ok(()) } fn activate_vdpa( &mut self, mem: &GuestMemoryMmap, virtio_interrupt: &Arc, queues: Vec<(usize, Queue, EventFd)>, ) -> Result<()> { self.vhost .set_features(self.common.acked_features) .map_err(Error::SetFeatures)?; self.vhost .set_backend_features(self.backend_features) .map_err(Error::SetBackendFeatures)?; for (queue_index, queue, queue_evt) in queues.iter() { let queue_max_size = queue.max_size(); let queue_size = queue.size(); self.vhost .set_vring_num(*queue_index, queue_size) .map_err(Error::SetVringNum)?; let config_data = VringConfigData { queue_max_size, queue_size, flags: 0u32, desc_table_addr: queue.desc_table().translate_gpa( self.common.access_platform.as_ref(), queue_size as usize * std::mem::size_of::(), ), used_ring_addr: queue.used_ring().translate_gpa( self.common.access_platform.as_ref(), 4 + queue_size as usize * 8, ), avail_ring_addr: queue.avail_ring().translate_gpa( self.common.access_platform.as_ref(), 4 + queue_size as usize * 2, ), log_addr: None, }; self.vhost .set_vring_addr(*queue_index, &config_data) .map_err(Error::SetVringAddr)?; self.vhost .set_vring_base( *queue_index, queue .avail_idx(mem, Ordering::Acquire) .map_err(Error::GetAvailableIndex)? .0, ) .map_err(Error::SetVringBase)?; if let Some(eventfd) = virtio_interrupt.notifier(VirtioInterruptType::Queue(*queue_index as u16)) { self.vhost .set_vring_call(*queue_index, &eventfd) .map_err(Error::SetVringCall)?; } self.vhost .set_vring_kick(*queue_index, queue_evt) .map_err(Error::SetVringKick)?; } // Setup the config eventfd if there is one if let Some(eventfd) = virtio_interrupt.notifier(VirtioInterruptType::Config) { self.vhost .set_config_call(&eventfd) .map_err(Error::SetConfigCall)?; } self.enable_vrings(queues.len(), true)?; self.vhost .set_status( (DEVICE_ACKNOWLEDGE | DEVICE_DRIVER | DEVICE_DRIVER_OK | DEVICE_FEATURES_OK) as u8, ) .map_err(Error::SetStatus) } fn reset_vdpa(&mut self) -> Result<()> { if let Some(num_queues) = self.enabled_num_queues { self.enable_vrings(num_queues, false)?; } self.vhost.set_status(0).map_err(Error::SetStatus) } fn dma_map(&self, iova: u64, size: u64, host_vaddr: *const u8, readonly: bool) -> Result<()> { let iova_last = iova + size - 1; if iova < self.iova_range.first || iova_last > self.iova_range.last { return Err(Error::InvalidIovaRange(iova, iova_last)); } self.vhost .dma_map(iova, size, host_vaddr, readonly) .map_err(Error::DmaMap) } fn dma_unmap(&self, iova: u64, size: u64) -> Result<()> { let iova_last = iova + size - 1; if iova < self.iova_range.first || iova_last > self.iova_range.last { return Err(Error::InvalidIovaRange(iova, iova_last)); } self.vhost.dma_unmap(iova, size).map_err(Error::DmaUnmap) } } impl VirtioDevice for Vdpa { fn device_type(&self) -> u32 { self.common.device_type } fn queue_max_sizes(&self) -> &[u16] { &self.common.queue_sizes } fn features(&self) -> u64 { self.common.avail_features } fn ack_features(&mut self, value: u64) { self.common.ack_features(value) } fn read_config(&self, offset: u64, data: &mut [u8]) { if let Err(e) = self.vhost.get_config(offset as u32, data) { error!("Failed reading virtio config: {}", e); } } fn write_config(&mut self, offset: u64, data: &[u8]) { if let Err(e) = self.vhost.set_config(offset as u32, data) { error!("Failed writing virtio config: {}", e); } } fn activate( &mut self, mem: GuestMemoryAtomic, virtio_interrupt: Arc, queues: Vec<(usize, Queue, EventFd)>, ) -> ActivateResult { self.activate_vdpa(&mem.memory(), &virtio_interrupt, queues) .map_err(ActivateError::ActivateVdpa)?; // Store the virtio interrupt handler as we need to return it on reset self.common.interrupt_cb = Some(virtio_interrupt); event!("vdpa", "activated", "id", &self.id); Ok(()) } fn reset(&mut self) -> Option> { if let Err(e) = self.reset_vdpa() { error!("Failed to reset vhost-vdpa: {:?}", e); return None; } event!("vdpa", "reset", "id", &self.id); // Return the virtio interrupt handler self.common.interrupt_cb.take() } fn set_access_platform(&mut self, access_platform: Arc) { self.common.set_access_platform(access_platform) } } pub struct VdpaDmaMapping { device: Arc>, memory: Arc, } impl VdpaDmaMapping { pub fn new(device: Arc>, memory: Arc) -> Self { Self { device, memory } } } impl ExternalDmaMapping for VdpaDmaMapping { fn map(&self, iova: u64, gpa: u64, size: u64) -> result::Result<(), io::Error> { let mem = self.memory.memory(); let guest_addr = GuestAddress(gpa); let user_addr = if mem.check_range(guest_addr, size as usize) { mem.get_host_address(guest_addr).unwrap() as *const u8 } else { return Err(io::Error::new( io::ErrorKind::Other, format!( "failed to convert guest address 0x{:x} into \ host user virtual address", gpa ), )); }; debug!( "DMA map iova 0x{:x}, gpa 0x{:x}, size 0x{:x}, host_addr 0x{:x}", iova, gpa, size, user_addr as u64 ); self.device .lock() .unwrap() .dma_map(iova, size, user_addr, false) .map_err(|e| { io::Error::new( io::ErrorKind::Other, format!( "failed to map memory for vDPA device, \ iova 0x{:x}, gpa 0x{:x}, size 0x{:x}: {:?}", iova, gpa, size, e ), ) }) } fn unmap(&self, iova: u64, size: u64) -> std::result::Result<(), std::io::Error> { debug!("DMA unmap iova 0x{:x} size 0x{:x}", iova, size); self.device .lock() .unwrap() .dma_unmap(iova, size) .map_err(|e| { io::Error::new( io::ErrorKind::Other, format!( "failed to unmap memory for vDPA device, \ iova 0x{:x}, size 0x{:x}: {:?}", iova, size, e ), ) }) } }