Files
RedBear-OS/net/virtio-netd/src/main.rs
T
bjorn3 fd8dabd1bc Use the new scheme format in most places
The graphics subsystem still uses the old format as orbital manually
parses the fpath result.
2024-07-11 21:14:45 +02:00

127 lines
3.6 KiB
Rust

mod scheme;
use std::fs::File;
use std::io::{Read, Write};
use std::mem;
use driver_network::NetworkScheme;
use pcid_interface::PciFunctionHandle;
use scheme::VirtioNet;
pub const VIRTIO_NET_F_MAC: u32 = 5;
#[derive(Debug)]
#[repr(C)]
pub struct VirtHeader {
pub flags: u8,
pub gso_type: u8,
pub hdr_len: u16,
pub gso_size: u16,
pub csum_start: u16,
pub csum_offset: u16,
pub num_buffers: u16,
}
static_assertions::const_assert_eq!(core::mem::size_of::<VirtHeader>(), 12);
const MAX_BUFFER_LEN: usize = 65535;
fn deamon(daemon: redox_daemon::Daemon) -> Result<(), Box<dyn std::error::Error>> {
let mut pcid_handle = PciFunctionHandle::connect_default()?;
// Double check that we have the right device.
//
// 0x1000 - virtio-net
let pci_config = pcid_handle.config();
assert_eq!(pci_config.func.full_device_id.device_id, 0x1000);
log::info!("virtio-net: initiating startup sequence :^)");
let device = virtio_core::probe_device(&mut pcid_handle)?;
let device_space = device.device_space;
// Negotiate device features:
let mac_address = if device.transport.check_device_feature(VIRTIO_NET_F_MAC) {
let mac = unsafe {
[
core::ptr::read_volatile(device_space.add(0)),
core::ptr::read_volatile(device_space.add(1)),
core::ptr::read_volatile(device_space.add(2)),
core::ptr::read_volatile(device_space.add(3)),
core::ptr::read_volatile(device_space.add(4)),
core::ptr::read_volatile(device_space.add(5)),
]
};
log::info!(
"virtio-net: device MAC is {:>02X}:{:>02X}:{:>02X}:{:>02X}:{:>02X}:{:>02X}",
mac[0],
mac[1],
mac[2],
mac[3],
mac[4],
mac[5]
);
device.transport.ack_driver_feature(VIRTIO_NET_F_MAC);
mac
} else {
unimplemented!()
};
device.transport.finalize_features();
// Allocate the recieve and transmit queues:
//
// > Empty buffers are placed in one virtqueue for receiving
// > packets, and outgoing packets are enqueued into another
// > for transmission in that order.
//
// TODO(andypython): Should we use the same IRQ vector for both?
let rx_queue = device
.transport
.setup_queue(virtio_core::MSIX_PRIMARY_VECTOR, &device.irq_handle)?;
let tx_queue = device
.transport
.setup_queue(virtio_core::MSIX_PRIMARY_VECTOR, &device.irq_handle)?;
device.transport.run_device();
let mut name = pci_config.func.name();
name.push_str("_virtio_net");
let device = VirtioNet::new(mac_address, rx_queue, tx_queue);
let mut scheme = NetworkScheme::new(device, format!("network.{name}"));
let mut event_queue = File::open("/scheme/event")?;
event_queue.write(&syscall::Event {
id: scheme.event_handle() as usize,
flags: syscall::EVENT_READ,
data: 0,
})?;
libredox::call::setrens(0, 0).expect("virtio-netd: failed to enter null namespace");
daemon.ready().expect("virtio-netd: failed to daemonize");
scheme.tick()?;
loop {
event_queue.read(&mut [0; mem::size_of::<syscall::Event>()])?; // Wait for event
scheme.tick()?;
}
}
fn daemon_runner(redox_daemon: redox_daemon::Daemon) -> ! {
deamon(redox_daemon).unwrap();
unreachable!();
}
pub fn main() {
#[cfg(target_os = "redox")]
virtio_core::utils::setup_logging(log::LevelFilter::Trace, "virtio-netd");
redox_daemon::Daemon::new(daemon_runner).expect("virtio-core: failed to daemonize");
}