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fix(virtio/pci): put common config into volatile reference
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Signed-off-by: Martin Kröning <[email protected]>
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mkroening committed Apr 22, 2024
1 parent b4c57f3 commit efb82df
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Showing 3 changed files with 80 additions and 43 deletions.
11 changes: 9 additions & 2 deletions Cargo.lock

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1 change: 1 addition & 0 deletions Cargo.toml
Original file line number Diff line number Diff line change
Expand Up @@ -100,6 +100,7 @@ build-time = "0.1.3"
async-trait = "0.1.79"
async-lock = { version = "3.3.0", default-features = false }
simple-shell = { version = "0.0.1", optional = true }
volatile = "0.5.3"

[dependencies.smoltcp]
version = "0.11"
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111 changes: 70 additions & 41 deletions src/drivers/virtio/transport/pci.rs
Original file line number Diff line number Diff line change
Expand Up @@ -4,9 +4,12 @@
#![allow(dead_code)]

use alloc::vec::Vec;
use core::ptr::NonNull;
use core::sync::atomic::{fence, Ordering};
use core::{mem, ptr};

use volatile::{map_field, VolatileRef};

#[cfg(all(not(feature = "rtl8139"), any(feature = "tcp", feature = "udp")))]
use crate::arch::kernel::interrupts::*;
use crate::arch::memory_barrier;
Expand Down Expand Up @@ -385,21 +388,21 @@ impl UniCapsColl {
pub struct ComCfg {
/// References the raw structure in PCI memory space. Is static as
/// long as the device is present, which is mandatory in order to let this code work.
com_cfg: &'static mut ComCfgRaw,
com_cfg: VolatileRef<'static, ComCfgRaw>,
/// Preferences of the device for this config. From 1 (highest) to 2^7-1 (lowest)
rank: u8,
}

// Private interface of ComCfg
impl ComCfg {
fn new(raw: &'static mut ComCfgRaw, rank: u8) -> Self {
fn new(raw: VolatileRef<'static, ComCfgRaw>, rank: u8) -> Self {
ComCfg { com_cfg: raw, rank }
}
}

pub struct VqCfgHandler<'a> {
vq_index: u16,
raw: &'a mut ComCfgRaw,
raw: VolatileRef<'a, ComCfgRaw>,
}

impl<'a> VqCfgHandler<'a> {
Expand All @@ -408,38 +411,45 @@ impl<'a> VqCfgHandler<'a> {
///
/// Returns the set size in form of a `u16`.
pub fn set_vq_size(&mut self, size: u16) -> u16 {
self.raw.queue_select = self.vq_index;
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
let queue_size = map_field!(raw.queue_size);

if self.raw.queue_size >= size {
self.raw.queue_size = size;
if queue_size.read() >= size {
queue_size.write(size);
}

self.raw.queue_size
queue_size.read()
}

pub fn set_ring_addr(&mut self, addr: PhysAddr) {
self.raw.queue_select = self.vq_index;
self.raw.queue_desc = addr.as_u64();
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
map_field!(raw.queue_desc).write(addr.as_u64());
}

pub fn set_drv_ctrl_addr(&mut self, addr: PhysAddr) {
self.raw.queue_select = self.vq_index;
self.raw.queue_driver = addr.as_u64();
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
map_field!(raw.queue_driver).write(addr.as_u64());
}

pub fn set_dev_ctrl_addr(&mut self, addr: PhysAddr) {
self.raw.queue_select = self.vq_index;
self.raw.queue_device = addr.as_u64();
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
map_field!(raw.queue_device).write(addr.as_u64());
}

pub fn notif_off(&mut self) -> u16 {
self.raw.queue_select = self.vq_index;
self.raw.queue_notify_off
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
map_field!(raw.queue_notify_off).read()
}

pub fn enable_queue(&mut self) {
self.raw.queue_select = self.vq_index;
self.raw.queue_enable = 1;
let raw = self.raw.as_mut_ptr();
map_field!(raw.queue_select).write(self.vq_index);
map_field!(raw.queue_enable).write(1);
}
}

Expand All @@ -450,57 +460,65 @@ impl ComCfg {
///
/// INFO: The queue size is automatically bounded by constant `src::config:VIRTIO_MAX_QUEUE_SIZE`.
pub fn select_vq(&mut self, index: u16) -> Option<VqCfgHandler<'_>> {
self.com_cfg.queue_select = index;
let com_cfg = self.com_cfg.as_mut_ptr();

map_field!(com_cfg.queue_select).write(index);

if self.com_cfg.queue_size == 0 {
if map_field!(com_cfg.queue_size).read() == 0 {
None
} else {
Some(VqCfgHandler {
vq_index: index,
raw: self.com_cfg,
raw: self.com_cfg.borrow_mut(),
})
}
}

/// Returns the device status field.
pub fn dev_status(&self) -> u8 {
self.com_cfg.device_status
let com_cfg = self.com_cfg.as_ptr();
map_field!(com_cfg.device_status).read()
}

/// Resets the device status field to zero.
pub fn reset_dev(&mut self) {
memory_barrier();
self.com_cfg.device_status = 0;
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).write(0);
}

/// Sets the device status field to FAILED.
/// A driver MUST NOT initialize and use the device any further after this.
/// A driver MAY use the device again after a proper reset of the device.
pub fn set_failed(&mut self) {
memory_barrier();
self.com_cfg.device_status = u8::from(device::Status::FAILED);
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).write(u8::from(device::Status::FAILED));
}

/// Sets the ACKNOWLEDGE bit in the device status field. This indicates, the
/// OS has notived the device
pub fn ack_dev(&mut self) {
memory_barrier();
self.com_cfg.device_status |= u8::from(device::Status::ACKNOWLEDGE);
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).update(|s| s | u8::from(device::Status::ACKNOWLEDGE));
}

/// Sets the DRIVER bit in the device status field. This indicates, the OS
/// know how to run this device.
pub fn set_drv(&mut self) {
memory_barrier();
self.com_cfg.device_status |= u8::from(device::Status::DRIVER);
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).update(|s| s | u8::from(device::Status::DRIVER));
}

/// Sets the FEATURES_OK bit in the device status field.
///
/// Drivers MUST NOT accept new features after this step.
pub fn features_ok(&mut self) {
memory_barrier();
self.com_cfg.device_status |= u8::from(device::Status::FEATURES_OK);
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).update(|s| s | u8::from(device::Status::FEATURES_OK));
}

/// In order to correctly check feature negotiaten, this function
Expand All @@ -511,7 +529,8 @@ impl ComCfg {
/// otherwise, the device does not support our subset of features and the device is unusable.
pub fn check_features(&self) -> bool {
memory_barrier();
self.com_cfg.device_status & u8::from(device::Status::FEATURES_OK)
let com_cfg = self.com_cfg.as_ptr();
map_field!(com_cfg.device_status).read() & u8::from(device::Status::FEATURES_OK)
== u8::from(device::Status::FEATURES_OK)
}

Expand All @@ -520,54 +539,61 @@ impl ComCfg {
/// After this call, the device is "live"!
pub fn drv_ok(&mut self) {
memory_barrier();
self.com_cfg.device_status |= u8::from(device::Status::DRIVER_OK);
let com_cfg = self.com_cfg.as_mut_ptr();
map_field!(com_cfg.device_status).update(|s| s | u8::from(device::Status::DRIVER_OK));
}

/// Returns the features offered by the device. Coded in a 64bit value.
pub fn dev_features(&mut self) -> u64 {
let device_feature_select = ptr::from_mut(&mut self.com_cfg.device_feature_select);
let device_feature = ptr::from_mut(&mut self.com_cfg.device_feature);
let com_cfg = self.com_cfg.as_mut_ptr();
let device_feature_select = map_field!(com_cfg.device_feature_select);
let device_feature = map_field!(com_cfg.device_feature);

// Indicate device to show high 32 bits in device_feature field.
// See Virtio specification v1.1. - 4.1.4.3
memory_barrier();
unsafe { device_feature_select.write_volatile(1) };
device_feature_select.write(1);
memory_barrier();

// read high 32 bits of device features
let mut dev_feat = u64::from(unsafe { device_feature.read_volatile() }) << 32;
let mut dev_feat = u64::from(device_feature.read()) << 32;

// Indicate device to show low 32 bits in device_feature field.
// See Virtio specification v1.1. - 4.1.4.3
unsafe { device_feature_select.write_volatile(0) };
device_feature_select.write(0);
memory_barrier();

// read low 32 bits of device features
dev_feat |= u64::from(unsafe { device_feature.read_volatile() });
dev_feat |= u64::from(device_feature.read());

dev_feat
}

/// Write selected features into driver_select field.
pub fn set_drv_features(&mut self, feats: u64) {
let com_cfg = self.com_cfg.as_mut_ptr();
let driver_feature_select = map_field!(com_cfg.driver_feature_select);
let driver_feature = map_field!(com_cfg.driver_feature);

let high: u32 = (feats >> 32) as u32;
let low: u32 = feats as u32;

// Indicate to device that driver_features field shows low 32 bits.
// See Virtio specification v1.1. - 4.1.4.3
memory_barrier();
self.com_cfg.driver_feature_select = 0;
driver_feature_select.write(0);
memory_barrier();

// write low 32 bits of device features
self.com_cfg.driver_feature = low;
driver_feature.write(low);

// Indicate to device that driver_features field shows high 32 bits.
// See Virtio specification v1.1. - 4.1.4.3
self.com_cfg.driver_feature_select = 1;
driver_feature_select.write(1);
memory_barrier();

// write high 32 bits of device features
self.com_cfg.driver_feature = high;
driver_feature.write(high);
}
}

Expand Down Expand Up @@ -603,7 +629,7 @@ struct ComCfgRaw {
impl ComCfgRaw {
/// Returns a boxed [ComCfgRaw] structure. The box points to the actual structure inside the
/// PCI devices memory space.
fn map(cap: &PciCap) -> Option<&'static mut ComCfgRaw> {
fn map(cap: &PciCap) -> Option<VolatileRef<'static, ComCfgRaw>> {
if cap.bar.length < u64::from(cap.length + cap.offset) {
error!("Common config of with id {} of device {:x}, does not fit into memory specified by bar {:x}!",
cap.id,
Expand All @@ -621,10 +647,13 @@ impl ComCfgRaw {
}

let virt_addr_raw = cap.bar.mem_addr + cap.offset;
let ptr = NonNull::new(ptr::with_exposed_provenance_mut::<ComCfgRaw>(
virt_addr_raw.into(),
))
.unwrap();

// Create mutable reference to the PCI structure in PCI memory
let com_cfg_raw: &mut ComCfgRaw =
unsafe { &mut *(ptr::with_exposed_provenance_mut(virt_addr_raw.into())) };
let com_cfg_raw = unsafe { VolatileRef::new(ptr) };

Some(com_cfg_raw)
}
Expand Down

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