extern crate alloc;
use alloc::boxed::Box;
use rd_net::{Interface, NetError};
use rdrive::{Device, DriverGeneric, probe::pci::EndpointRc};
pub struct PlatformNetDevice {
name: &'static str,
irq_num: Option<usize>,
net: Option<rd_net::Net>,
}
impl PlatformNetDevice {
fn new(name: &'static str, net: rd_net::Net, irq_num: Option<usize>) -> Self {
Self {
name,
irq_num,
net: Some(net),
}
}
pub fn take_net(&mut self) -> Option<(rd_net::Net, &'static str, Option<usize>)> {
Some((self.net.take()?, self.name, self.irq_num))
}
}
pub fn take_rd_net_device(
device: Device<PlatformNetDevice>,
) -> Result<(rd_net::Net, &'static str, Option<usize>), NetError> {
let mut dev = device
.lock()
.map_err(|_| NetError::Other(Box::new(rd_net::KError::Unknown("device locked"))))?;
dev.take_net()
.ok_or_else(|| NetError::Other(Box::new(rd_net::KError::Unknown("device already taken"))))
}
impl DriverGeneric for PlatformNetDevice {
fn name(&self) -> &str {
self.name
}
}
pub fn pci_legacy_irq(endpoint: &EndpointRc) -> Option<usize> {
pci_irq_candidates(
endpoint.address(),
endpoint.interrupt_pin(),
endpoint.interrupt_line(),
|| {
#[cfg(pci_dyn_acpi_intx_route)]
{
let interrupt_pin = endpoint.interrupt_pin();
if interrupt_pin != 0 {
match crate::pci::acpi_irq_for_endpoint(endpoint.address(), interrupt_pin) {
Ok(Some(irq)) => return Some(irq),
Ok(None) => {}
Err(err) => log::warn!(
"failed to resolve ACPI IRQ for net endpoint {}: {err}",
endpoint.address()
),
}
}
}
None
},
|| {
#[cfg(pci_dyn_intx_route)]
{
let interrupt_pin = endpoint.interrupt_pin();
if interrupt_pin != 0 {
match crate::pci::fdt_irq_for_endpoint(endpoint.address(), interrupt_pin) {
Ok(Some(irq)) => return Some(irq),
Ok(None) => {}
Err(err) => log::warn!(
"failed to resolve FDT IRQ for net endpoint {}: {err}",
endpoint.address()
),
}
}
}
None
},
)
}
fn pci_irq_candidates(
address: rdrive::probe::pci::PciAddress,
interrupt_pin: u8,
interrupt_line: u8,
acpi: impl FnOnce() -> Option<usize>,
fdt: impl FnOnce() -> Option<usize>,
) -> Option<usize> {
if let Some(irq) = acpi() {
return Some(irq);
}
if let Some(irq) = fdt() {
return Some(irq);
}
if let Some(irq) = crate::pci::legacy_irq_for_endpoint(address, interrupt_pin) {
return Some(irq);
}
if interrupt_line == 0 || interrupt_line == u8::MAX {
return None;
}
Some(crate::pci::legacy_line_to_irq(interrupt_line))
}
#[cfg(test)]
mod tests {
use rdrive::probe::pci::PciAddress;
use super::pci_irq_candidates;
#[test]
fn pci_irq_resolution_prefers_acpi_then_fdt_then_fallback_line() {
let address = PciAddress::new(0, 0, 3, 0);
assert_eq!(
pci_irq_candidates(address, 1, 9, || Some(0x31), || Some(0x40)),
Some(0x31)
);
assert_eq!(
pci_irq_candidates(address, 1, 9, || None, || Some(0x40)),
Some(0x40)
);
let fallback_irq = pci_irq_candidates(address, 1, 9, || None, || None);
if cfg!(all(target_arch = "x86_64", plat_dyn)) {
assert_eq!(fallback_irq, Some(0x39));
} else if cfg!(target_arch = "x86_64") {
assert_eq!(fallback_irq, Some(0x29));
} else {
assert_eq!(fallback_irq, Some(9));
}
}
}
pub trait PlatformDeviceNet {
fn register_net<T>(self, name: &'static str, dev: T, irq_num: Option<usize>)
where
T: Interface + 'static;
}
impl PlatformDeviceNet for rdrive::PlatformDevice {
fn register_net<T>(self, name: &'static str, dev: T, irq_num: Option<usize>)
where
T: Interface + 'static,
{
let net = rd_net::Net::new(dev, axklib::dma::op());
self.register(PlatformNetDevice::new(name, net, irq_num));
}
}