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@ -34,9 +34,28 @@ pub struct E1000 {
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send_buffers: Vec<usize>,
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send_buffers: Vec<usize>,
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recv_page: usize,
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recv_page: usize,
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recv_buffers: Vec<usize>,
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recv_buffers: Vec<usize>,
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first_trans: bool
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first_trans: bool,
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}
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}
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const E1000_STATUS: usize = 0x0008 / 4;
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const E1000_IMS: usize = 0x00D0 / 4;
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const E1000_RCTL: usize = 0x0100 / 4;
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const E1000_TCTL: usize = 0x0400 / 4;
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const E1000_TIPG: usize = 0x0410 / 4;
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const E1000_RDBAL: usize = 0x2800 / 4;
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const E1000_RDBAH: usize = 0x2804 / 4;
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const E1000_RDLEN: usize = 0x2808 / 4;
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const E1000_RDH: usize = 0x2810 / 4;
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const E1000_RDT: usize = 0x2818 / 4;
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const E1000_TDBAL: usize = 0x3800 / 4;
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const E1000_TDBAH: usize = 0x3804 / 4;
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const E1000_TDLEN: usize = 0x3808 / 4;
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const E1000_TDH: usize = 0x3810 / 4;
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const E1000_TDT: usize = 0x3818 / 4;
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const E1000_MTA: usize = 0x5200 / 4;
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const E1000_RAL: usize = 0x5400 / 4;
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const E1000_RAH: usize = 0x5404 / 4;
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#[derive(Clone)]
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#[derive(Clone)]
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pub struct E1000Driver(Arc<Mutex<E1000>>);
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pub struct E1000Driver(Arc<Mutex<E1000>>);
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@ -64,11 +83,13 @@ impl E1000 {
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current_addr = current_addr + PAGE_SIZE;
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current_addr = current_addr + PAGE_SIZE;
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}
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}
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let e1000 = unsafe { slice::from_raw_parts_mut(self.header as *mut Volatile<u32>, self.size / 4) };
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let e1000 =
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unsafe { slice::from_raw_parts_mut(self.header as *mut Volatile<u32>, self.size / 4) };
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let send_queue_size = PAGE_SIZE / size_of::<E1000SendDesc>();
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let send_queue_size = PAGE_SIZE / size_of::<E1000SendDesc>();
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let mut send_queue =
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let mut send_queue = unsafe {
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unsafe { slice::from_raw_parts_mut(self.send_page as *mut E1000RecvDesc, send_queue_size) };
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slice::from_raw_parts_mut(self.send_page as *mut E1000RecvDesc, send_queue_size)
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let mut tdt = e1000[0x3818 / 4].read();
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};
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let mut tdt = e1000[E1000_TDT].read();
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let index = (tdt as usize + 1) % send_queue_size;
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let index = (tdt as usize + 1) % send_queue_size;
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let send_desc = &mut send_queue[index];
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let send_desc = &mut send_queue[index];
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@ -84,11 +105,13 @@ impl E1000 {
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current_addr = current_addr + PAGE_SIZE;
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current_addr = current_addr + PAGE_SIZE;
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}
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}
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let e1000 = unsafe { slice::from_raw_parts_mut(self.header as *mut Volatile<u32>, self.size / 4) };
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let e1000 =
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unsafe { slice::from_raw_parts_mut(self.header as *mut Volatile<u32>, self.size / 4) };
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let recv_queue_size = PAGE_SIZE / size_of::<E1000RecvDesc>();
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let recv_queue_size = PAGE_SIZE / size_of::<E1000RecvDesc>();
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let mut recv_queue =
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let mut recv_queue = unsafe {
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unsafe { slice::from_raw_parts_mut(self.recv_page as *mut E1000RecvDesc, recv_queue_size) };
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slice::from_raw_parts_mut(self.recv_page as *mut E1000RecvDesc, recv_queue_size)
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let mut rdt = e1000[0x2818 / 4].read();
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};
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let mut rdt = e1000[E1000_RDT].read();
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let index = (rdt as usize + 1) % recv_queue_size;
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let index = (rdt as usize + 1) % recv_queue_size;
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let recv_desc = &mut recv_queue[index];
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let recv_desc = &mut recv_queue[index];
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return (*recv_desc).status & 1 != 0;
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return (*recv_desc).status & 1 != 0;
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@ -169,26 +192,28 @@ impl phy::RxToken for E1000RxToken {
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{
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{
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let data = {
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let data = {
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let mut driver = (self.0).0.lock();
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let mut driver = (self.0).0.lock();
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let e1000 = unsafe { slice::from_raw_parts_mut(driver.header as *mut Volatile<u32>, driver.size / 4) };
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let e1000 = unsafe {
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slice::from_raw_parts_mut(driver.header as *mut Volatile<u32>, driver.size / 4)
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};
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let recv_queue_size = PAGE_SIZE / size_of::<E1000RecvDesc>();
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let recv_queue_size = PAGE_SIZE / size_of::<E1000RecvDesc>();
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let mut recv_queue =
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let mut recv_queue = unsafe {
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unsafe { slice::from_raw_parts_mut(driver.recv_page as *mut E1000RecvDesc, recv_queue_size) };
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slice::from_raw_parts_mut(driver.recv_page as *mut E1000RecvDesc, recv_queue_size)
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let mut rdt = e1000[0x2818 / 4].read();
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};
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let mut rdt = e1000[E1000_RDT].read();
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let index = (rdt as usize + 1) % recv_queue_size;
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let index = (rdt as usize + 1) % recv_queue_size;
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let recv_desc = &mut recv_queue[index];
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let recv_desc = &mut recv_queue[index];
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assert!(recv_desc.status & 1 != 0);
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assert!(recv_desc.status & 1 != 0);
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let buffer = unsafe { slice::from_raw_parts(driver.recv_buffers[index] as *const u8, recv_desc.len as usize) };
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let buffer = unsafe {
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slice::from_raw_parts(
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println!("{:?}", recv_desc);
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driver.recv_buffers[index] as *const u8,
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for i in 0..recv_desc.len {
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recv_desc.len as usize,
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print!("{:#X} ", buffer[i as usize]);
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)
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}
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};
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println!("");
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recv_desc.status = recv_desc.status & !1;
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recv_desc.status = recv_desc.status & !1;
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rdt = (rdt + 1) % recv_queue_size as u32;
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rdt = (rdt + 1) % recv_queue_size as u32;
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e1000[0x2818 / 4].write(rdt);
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e1000[E1000_RDT].write(rdt);
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buffer
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buffer
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};
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};
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@ -208,11 +233,14 @@ impl phy::TxToken for E1000TxToken {
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let mut driver = (self.0).0.lock();
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let mut driver = (self.0).0.lock();
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let e1000 = unsafe { slice::from_raw_parts_mut(driver.header as *mut Volatile<u32>, driver.size / 4) };
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let e1000 = unsafe {
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slice::from_raw_parts_mut(driver.header as *mut Volatile<u32>, driver.size / 4)
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};
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let send_queue_size = PAGE_SIZE / size_of::<E1000SendDesc>();
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let send_queue_size = PAGE_SIZE / size_of::<E1000SendDesc>();
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let mut send_queue =
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let mut send_queue = unsafe {
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unsafe { slice::from_raw_parts_mut(driver.send_page as *mut E1000SendDesc, send_queue_size) };
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slice::from_raw_parts_mut(driver.send_page as *mut E1000SendDesc, send_queue_size)
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let mut tdt = e1000[0x3818 / 4].read();
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};
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let mut tdt = e1000[E1000_TDT].read();
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let index_next = (tdt as usize + 1) % send_queue_size;
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let index_next = (tdt as usize + 1) % send_queue_size;
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let send_desc = &mut send_queue[index_next];
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let send_desc = &mut send_queue[index_next];
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@ -220,26 +248,24 @@ impl phy::TxToken for E1000TxToken {
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let index = (tdt as usize) % send_queue_size;
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let index = (tdt as usize) % send_queue_size;
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let send_desc = &mut send_queue[index];
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let send_desc = &mut send_queue[index];
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let target = unsafe { slice::from_raw_parts_mut(driver.send_buffers[index] as *mut u8, len) };
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let target =
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unsafe { slice::from_raw_parts_mut(driver.send_buffers[index] as *mut u8, len) };
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target.copy_from_slice(&buffer[..len]);
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target.copy_from_slice(&buffer[..len]);
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println!("len {:?}", len);
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let buffer_page_pa = active_table()
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let buffer_page_pa = active_table().get_entry(driver.send_buffers[index]).unwrap().target();
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.get_entry(driver.send_buffers[index])
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.unwrap()
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.target();
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assert_eq!(buffer_page_pa, send_desc.addr as usize);
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assert_eq!(buffer_page_pa, send_desc.addr as usize);
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send_desc.len = len as u16 + 4;
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send_desc.len = len as u16 + 4;
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// RS | EOP
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send_desc.cmd = (1 << 3) | (1 << 0);
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send_desc.cmd = (1 << 3) | (1 << 0);
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send_desc.status = 0;
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send_desc.status = 0;
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println!("{:?}", &send_queue[index]);
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for i in 0..len {
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print!("{:#X} ", target[i]);
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}
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println!("tdh {} tdt {}", e1000[0x3810 / 4].read(), e1000[0x3818 / 4].read());
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fence(Ordering::SeqCst);
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fence(Ordering::SeqCst);
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tdt = (tdt + 1) % send_queue_size as u32;
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tdt = (tdt + 1) % send_queue_size as u32;
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e1000[0x3818 / 4].write(tdt);
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e1000[E1000_TDT].write(tdt);
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fence(Ordering::SeqCst);
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fence(Ordering::SeqCst);
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@ -313,14 +339,14 @@ pub fn e1000_init(header: usize, size: usize) {
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let e1000 = unsafe { slice::from_raw_parts_mut(header as *mut Volatile<u32>, size / 4) };
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let e1000 = unsafe { slice::from_raw_parts_mut(header as *mut Volatile<u32>, size / 4) };
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debug!(
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debug!(
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"status before setup: {:#?}",
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"status before setup: {:#?}",
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E1000Status::from_bits_truncate(e1000[0x8 / 4].read())
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E1000Status::from_bits_truncate(e1000[E1000_STATUS].read())
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);
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);
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e1000[0x3800 / 4].write(send_page_pa as u32); // TDBAL
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e1000[E1000_TDBAL].write(send_page_pa as u32); // TDBAL
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e1000[0x3804 / 4].write((send_page_pa >> 32) as u32); // TDBAH
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e1000[E1000_TDBAH].write((send_page_pa >> 32) as u32); // TDBAH
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e1000[0x3808 / 4].write(PAGE_SIZE as u32); // TDLEN
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e1000[E1000_TDLEN].write(PAGE_SIZE as u32); // TDLEN
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e1000[0x3810 / 4].write(0); // TDH
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e1000[E1000_TDH].write(0); // TDH
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e1000[0x3818 / 4].write(0); // TDT
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e1000[E1000_TDT].write(0); // TDT
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for i in 0..send_queue_size {
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for i in 0..send_queue_size {
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let buffer_page = unsafe {
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let buffer_page = unsafe {
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@ -331,32 +357,35 @@ pub fn e1000_init(header: usize, size: usize) {
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driver.send_buffers.push(buffer_page);
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driver.send_buffers.push(buffer_page);
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}
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}
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e1000[0x400 / 4].write((1 << 1) | (1 << 3) | (0x10 << 4) | (0x40 << 12)); // TCTL
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// EN | PSP | CT=0x10 | COLD=0x40
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e1000[0x410 / 4].write(0xa | (0x8 << 10) | (0xc << 20)); // TIPG
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e1000[E1000_TCTL].write((1 << 1) | (1 << 3) | (0x10 << 4) | (0x40 << 12)); // TCTL
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// IPGT=0xa | IPGR1=0x8 | IPGR2=0xc
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e1000[E1000_TIPG].write(0xa | (0x8 << 10) | (0xc << 20)); // TIPG
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let mut RAL: u32 = 0;
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let mut ral: u32 = 0;
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let mut RAH: u32 = 0;
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let mut rah: u32 = 0;
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for i in 0..4 {
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for i in 0..4 {
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RAL = RAL | (mac[i] as u32) << (i * 8);
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ral = ral | (mac[i] as u32) << (i * 8);
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}
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}
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for i in 0..2 {
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for i in 0..2 {
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RAH = RAH | (mac[i + 4] as u32) << (i * 8);
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rah = rah | (mac[i + 4] as u32) << (i * 8);
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}
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}
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e1000[0x5400 / 4].write(RAL); // RAL
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e1000[E1000_RAL].write(ral); // RAL
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e1000[0x5404 / 4].write(RAH | (1 << 31)); // RAH
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// AV | AS=DA
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e1000[E1000_RAH].write(rah | (1 << 31)); // RAH
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// MTA
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// MTA
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for i in (0x5200 / 4)..(0x5400 / 4) {
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for i in E1000_MTA..E1000_RAL {
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e1000[i].write(0);
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e1000[i].write(0);
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}
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}
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e1000[0xd0 / 4].write(0); // IMS
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e1000[E1000_IMS].write(0); // IMS
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e1000[0x2800 / 4].write(recv_page_pa as u32); // RDBAL
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e1000[E1000_RDBAL].write(recv_page_pa as u32); // RDBAL
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e1000[0x2804 / 4].write((recv_page_pa >> 32) as u32); // RDBAH
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e1000[E1000_RDBAH].write((recv_page_pa >> 32) as u32); // RDBAH
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e1000[0x2808 / 4].write(PAGE_SIZE as u32); // RDLEN
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e1000[E1000_RDLEN].write(PAGE_SIZE as u32); // RDLEN
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e1000[0x2810 / 4].write(0); // RDH
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e1000[E1000_RDH].write(0); // RDH
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e1000[0x2818 / 4].write((recv_queue_size - 1) as u32); // RDT
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e1000[E1000_RDT].write((recv_queue_size - 1) as u32); // RDT
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for i in 0..recv_queue_size {
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for i in 0..recv_queue_size {
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let buffer_page = unsafe {
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let buffer_page = unsafe {
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@ -367,11 +396,13 @@ pub fn e1000_init(header: usize, size: usize) {
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driver.recv_buffers.push(buffer_page);
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driver.recv_buffers.push(buffer_page);
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}
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}
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e1000[0x100 / 4].write((1 << 1) | (1 << 15) | (3 << 16) | (1 << 25) | (1 << 26)); // RCTL
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// EN | BAM | BSIZE=3 | BSEX | SECRC
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// BSIZE=3 | BSEX means buffer size = 4096
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e1000[E1000_RCTL].write((1 << 1) | (1 << 15) | (3 << 16) | (1 << 25) | (1 << 26)); // RCTL
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debug!(
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debug!(
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"status after setup: {:#?}",
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"status after setup: {:#?}",
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E1000Status::from_bits_truncate(e1000[0x8 / 4].read())
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E1000Status::from_bits_truncate(e1000[E1000_STATUS].read())
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);
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);
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let net_driver = E1000Driver(Arc::new(Mutex::new(driver)));
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let net_driver = E1000Driver(Arc::new(Mutex::new(driver)));
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