337 lines
10 KiB
Rust
337 lines
10 KiB
Rust
use std::convert::TryInto;
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use std::mem;
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use common::io::{Io, Mmio, ReadOnly};
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use driver_network::NetworkAdapter;
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use syscall::error::{Error, Result, EMSGSIZE};
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use common::dma::Dma;
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#[repr(C, packed)]
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struct Regs {
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mac: [Mmio<u32>; 2],
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_mar: [Mmio<u32>; 2],
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_dtccr: [Mmio<u32>; 2],
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_rsv0: [Mmio<u32>; 2],
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tnpds: [Mmio<u32>; 2],
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thpds: [Mmio<u32>; 2],
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_rsv1: [Mmio<u8>; 7],
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cmd: Mmio<u8>,
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tppoll: Mmio<u8>,
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_rsv2: [Mmio<u8>; 3],
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imr: Mmio<u16>,
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isr: Mmio<u16>,
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tcr: Mmio<u32>,
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rcr: Mmio<u32>,
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_tctr: Mmio<u32>,
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_rsv3: Mmio<u32>,
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cmd_9346: Mmio<u8>,
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_config: [Mmio<u8>; 6],
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_rsv4: Mmio<u8>,
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timer_int: Mmio<u32>,
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_rsv5: Mmio<u32>,
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_phys_ar: Mmio<u32>,
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_rsv6: [Mmio<u32>; 2],
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phys_sts: ReadOnly<Mmio<u8>>,
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_rsv7: [Mmio<u8>; 23],
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_wakeup: [Mmio<u32>; 16],
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_crc: [Mmio<u16>; 5],
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_rsv8: [Mmio<u8>; 12],
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rms: Mmio<u16>,
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_rsv9: Mmio<u32>,
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_c_plus_cr: Mmio<u16>,
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_rsv10: Mmio<u16>,
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rdsar: [Mmio<u32>; 2],
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mtps: Mmio<u8>,
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_rsv11: [Mmio<u8>; 19],
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}
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const OWN: u32 = 1 << 31;
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const EOR: u32 = 1 << 30;
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const FS: u32 = 1 << 29;
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const LS: u32 = 1 << 28;
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#[repr(C, packed)]
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struct Rd {
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ctrl: Mmio<u32>,
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_vlan: Mmio<u32>,
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buffer_low: Mmio<u32>,
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buffer_high: Mmio<u32>,
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}
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#[repr(C, packed)]
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struct Td {
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ctrl: Mmio<u32>,
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_vlan: Mmio<u32>,
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buffer_low: Mmio<u32>,
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buffer_high: Mmio<u32>,
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}
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pub struct Rtl8168 {
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regs: &'static mut Regs,
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receive_buffer: [Dma<[Mmio<u8>; 0x1FF8]>; 64],
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receive_ring: Dma<[Rd; 64]>,
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receive_i: usize,
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transmit_buffer: [Dma<[Mmio<u8>; 7552]>; 16],
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transmit_ring: Dma<[Td; 16]>,
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transmit_i: usize,
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transmit_buffer_h: [Dma<[Mmio<u8>; 7552]>; 1],
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transmit_ring_h: Dma<[Td; 1]>,
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mac_address: [u8; 6],
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}
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impl NetworkAdapter for Rtl8168 {
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fn mac_address(&mut self) -> [u8; 6] {
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self.mac_address
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}
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fn available_for_read(&mut self) -> usize {
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self.next_read()
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}
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fn read_packet(&mut self, buf: &mut [u8]) -> Result<Option<usize>> {
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if self.receive_i >= self.receive_ring.len() {
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self.receive_i = 0;
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}
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let rd = &mut self.receive_ring[self.receive_i];
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if !rd.ctrl.readf(OWN) {
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let rd_len = rd.ctrl.read() & 0x3FFF;
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let data = &self.receive_buffer[self.receive_i];
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let mut i = 0;
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while i < buf.len() && i < rd_len as usize {
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buf[i] = data[i].read();
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i += 1;
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}
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let eor = rd.ctrl.read() & EOR;
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rd.ctrl.write(OWN | eor | data.len() as u32);
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self.receive_i += 1;
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Ok(Some(i))
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} else {
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Ok(None)
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}
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}
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fn write_packet(&mut self, buf: &[u8]) -> Result<usize> {
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loop {
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if self.transmit_i >= self.transmit_ring.len() {
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self.transmit_i = 0;
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}
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let td = &mut self.transmit_ring[self.transmit_i];
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if !td.ctrl.readf(OWN) {
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let data = &mut self.transmit_buffer[self.transmit_i];
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if buf.len() > data.len() {
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return Err(Error::new(EMSGSIZE));
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}
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let mut i = 0;
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while i < buf.len() && i < data.len() {
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data[i].write(buf[i]);
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i += 1;
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}
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let eor = td.ctrl.read() & EOR;
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td.ctrl.write(OWN | eor | FS | LS | i as u32);
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self.regs.tppoll.writef(1 << 6, true); //Notify of normal priority packet
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while self.regs.tppoll.readf(1 << 6) {
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std::hint::spin_loop();
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}
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self.transmit_i += 1;
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return Ok(i);
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}
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std::hint::spin_loop();
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}
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}
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}
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impl Rtl8168 {
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pub unsafe fn new(base: usize) -> Result<Self> {
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assert_eq!(mem::size_of::<Regs>(), 256);
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let regs = &mut *(base as *mut Regs);
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assert_eq!(®s.tnpds as *const _ as usize - base, 0x20);
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assert_eq!(®s.cmd as *const _ as usize - base, 0x37);
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assert_eq!(®s.tcr as *const _ as usize - base, 0x40);
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assert_eq!(®s.rcr as *const _ as usize - base, 0x44);
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assert_eq!(®s.cmd_9346 as *const _ as usize - base, 0x50);
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assert_eq!(®s.phys_sts as *const _ as usize - base, 0x6C);
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assert_eq!(®s.rms as *const _ as usize - base, 0xDA);
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assert_eq!(®s.rdsar as *const _ as usize - base, 0xE4);
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assert_eq!(®s.mtps as *const _ as usize - base, 0xEC);
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let mut module = Rtl8168 {
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regs,
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receive_buffer: (0..64)
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.map(|_| Ok(Dma::zeroed()?.assume_init()))
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.collect::<Result<Vec<_>>>()?
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.try_into()
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.unwrap_or_else(|_| unreachable!()),
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receive_ring: Dma::zeroed()?.assume_init(),
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receive_i: 0,
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transmit_buffer: (0..16)
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.map(|_| Ok(Dma::zeroed()?.assume_init()))
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.collect::<Result<Vec<_>>>()?
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.try_into()
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.unwrap_or_else(|_| unreachable!()),
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transmit_ring: Dma::zeroed()?.assume_init(),
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transmit_i: 0,
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transmit_buffer_h: [Dma::zeroed()?.assume_init()],
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transmit_ring_h: Dma::zeroed()?.assume_init(),
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mac_address: [0; 6],
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};
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module.init();
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Ok(module)
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}
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pub unsafe fn irq(&mut self) -> bool {
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// Read and then clear the ISR
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let isr = self.regs.isr.read();
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self.regs.isr.write(isr);
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let imr = self.regs.imr.read();
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(isr & imr) != 0
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}
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pub fn next_read(&self) -> usize {
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let mut receive_i = self.receive_i;
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if receive_i >= self.receive_ring.len() {
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receive_i = 0;
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}
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let rd = &self.receive_ring[receive_i];
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if !rd.ctrl.readf(OWN) {
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(rd.ctrl.read() & 0x3FFF) as usize
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} else {
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0
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}
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}
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pub unsafe fn init(&mut self) {
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let mac_low = self.regs.mac[0].read();
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let mac_high = self.regs.mac[1].read();
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let mac = [
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mac_low as u8,
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(mac_low >> 8) as u8,
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(mac_low >> 16) as u8,
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(mac_low >> 24) as u8,
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mac_high as u8,
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(mac_high >> 8) as u8,
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];
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println!(
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" - MAC: {:>02X}:{:>02X}:{:>02X}:{:>02X}:{:>02X}:{:>02X}",
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mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]
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);
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self.mac_address = mac;
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// Reset - this will disable tx and rx, reinitialize FIFOs, and set the system buffer pointer to the initial value
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println!(" - Reset");
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self.regs.cmd.writef(1 << 4, true);
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while self.regs.cmd.readf(1 << 4) {
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core::hint::spin_loop();
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}
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// Set up rx buffers
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println!(" - Receive buffers");
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for i in 0..self.receive_ring.len() {
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let rd = &mut self.receive_ring[i];
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let data = &mut self.receive_buffer[i];
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rd.buffer_low.write(data.physical() as u32);
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rd.buffer_high.write((data.physical() as u64 >> 32) as u32);
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rd.ctrl.write(OWN | data.len() as u32);
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}
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if let Some(rd) = self.receive_ring.last_mut() {
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rd.ctrl.writef(EOR, true);
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}
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// Set up normal priority tx buffers
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println!(" - Transmit buffers (normal priority)");
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for i in 0..self.transmit_ring.len() {
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self.transmit_ring[i]
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.buffer_low
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.write(self.transmit_buffer[i].physical() as u32);
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self.transmit_ring[i]
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.buffer_high
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.write((self.transmit_buffer[i].physical() as u64 >> 32) as u32);
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}
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if let Some(td) = self.transmit_ring.last_mut() {
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td.ctrl.writef(EOR, true);
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}
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// Set up high priority tx buffers
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println!(" - Transmit buffers (high priority)");
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for i in 0..self.transmit_ring_h.len() {
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self.transmit_ring_h[i]
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.buffer_low
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.write(self.transmit_buffer_h[i].physical() as u32);
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self.transmit_ring_h[i]
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.buffer_high
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.write((self.transmit_buffer_h[i].physical() as u64 >> 32) as u32);
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}
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if let Some(td) = self.transmit_ring_h.last_mut() {
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td.ctrl.writef(EOR, true);
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}
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println!(" - Set config");
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// Unlock config
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self.regs.cmd_9346.write(1 << 7 | 1 << 6);
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// Enable rx (bit 3) and tx (bit 2)
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self.regs.cmd.writef(1 << 3 | 1 << 2, true);
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// Max RX packet size
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self.regs.rms.write(0x1FF8);
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// Max TX packet size
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self.regs.mtps.write(0x3B);
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// Set tx low priority buffer address
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self.regs.tnpds[0].write(self.transmit_ring.physical() as u32);
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self.regs.tnpds[1].write(((self.transmit_ring.physical() as u64) >> 32) as u32);
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// Set tx high priority buffer address
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self.regs.thpds[0].write(self.transmit_ring_h.physical() as u32);
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self.regs.thpds[1].write(((self.transmit_ring_h.physical() as u64) >> 32) as u32);
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// Set rx buffer address
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self.regs.rdsar[0].write(self.receive_ring.physical() as u32);
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self.regs.rdsar[1].write(((self.receive_ring.physical() as u64) >> 32) as u32);
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// Disable timer interrupt
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self.regs.timer_int.write(0);
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//Clear ISR
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let isr = self.regs.isr.read();
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self.regs.isr.write(isr);
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// Interrupt on tx error (bit 3), tx ok (bit 2), rx error(bit 1), and rx ok (bit 0)
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self.regs.imr.write(
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1 << 15 | 1 << 14 | 1 << 7 | 1 << 6 | 1 << 5 | 1 << 4 | 1 << 3 | 1 << 2 | 1 << 1 | 1,
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);
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// Set TX config
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self.regs.tcr.write(0b11 << 24 | 0b111 << 8);
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// Set RX config - Accept broadcast (bit 3), multicast (bit 2), and unicast (bit 1)
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self.regs.rcr.write(0xE70E);
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// Lock config
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self.regs.cmd_9346.write(0);
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println!(" - Complete!");
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}
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}
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