use core::ops::Deref; use alloc::{vec, vec::Vec}; use libcortex_a9::{asm::*, cache::*, UncachedSlice}; use libregister::*; use super::Buffer; #[derive(Debug)] pub enum Error { HrespNotOk, RxOverrun, BufferNotAvail, Truncated, } /// Descriptor entry #[repr(C, align(0x08))] pub struct DescEntry { word0: DescWord0, word1: DescWord1, } impl DescEntry { pub fn zeroed() -> Self { DescEntry { word0: DescWord0 { inner: VolatileCell::new(0) }, word1: DescWord1 { inner: VolatileCell::new(0) }, } } } register!(desc_word0, DescWord0, VolatileCell, u32); register_bit!(desc_word0, /// true if owned by software, false if owned by hardware used, 0); register_bit!(desc_word0, /// mark last desc in list wrap, 1); register_bits!(desc_word0, address, u32, 2, 31); register!(desc_word1, DescWord1, VolatileCell, u32); register_bits!(desc_word1, frame_length_lsbs, u16, 0, 12); register_bit!(desc_word1, bad_fcs, 13); register_bit!(desc_word1, start_of_frame, 14); register_bit!(desc_word1, end_of_frame, 15); register_bit!(desc_word1, cfi, 16); register_bits!(desc_word1, vlan_priority, u8, 17, 19); register_bit!(desc_word1, priority_tag, 20); register_bit!(desc_word1, vlan_tag, 21); register_bits!(desc_word1, bits_22_23, u8, 22, 23); register_bit!(desc_word1, bit_24, 24); register_bits!(desc_word1, spec_addr_which, u8, 25, 26); register_bit!(desc_word1, spec_addr_match, 27); register_bit!(desc_word1, uni_hash_match, 29); register_bit!(desc_word1, multi_hash_match, 30); register_bit!(desc_word1, global_broadcast, 31); #[repr(C)] pub struct DescList { list: UncachedSlice, buffers: Vec, next: usize, } impl DescList { pub fn new(size: usize) -> Self { let mut list = UncachedSlice::new(size, || DescEntry::zeroed()) .unwrap(); let mut buffers = vec![Buffer::new(); size]; let last = list.len().min(buffers.len()) - 1; for (i, (entry, buffer)) in list.iter_mut().zip(buffers.iter_mut()).enumerate() { let is_last = i == last; let buffer_addr = &mut buffer.0[0] as *mut _ as u32; assert!(buffer_addr & 0b11 == 0); entry.word0.write( DescWord0::zeroed() .used(false) .wrap(is_last) .address(buffer_addr >> 2) ); entry.word1.write( DescWord1::zeroed() ); // Flush buffer from cache, to be filled by the peripheral // before next read dcci_slice(&buffer[..]); } DescList { list, buffers, next: 0, } } pub fn len(&self) -> usize { self.list.len().min(self.buffers.len()) } pub fn list_addr(&self) -> u32 { &self.list[0] as *const _ as u32 } pub fn recv_next<'s: 'p, 'p>(&'s mut self) -> Result>, Error> { let list_len = self.list.len(); let entry = &mut self.list[self.next]; dmb(); if entry.word0.read().used() { let word1 = entry.word1.read(); let len = word1.frame_length_lsbs().into(); let buffer = &mut self.buffers[self.next][0..len]; self.next += 1; if self.next >= list_len { self.next = 0; } let pkt = PktRef { entry, buffer }; if word1.start_of_frame() && word1.end_of_frame() { Ok(Some(pkt)) } else { Err(Error::Truncated) } } else { Ok(None) } } } /// Releases a buffer back to the HW upon Drop pub struct PktRef<'a> { entry: &'a mut DescEntry, buffer: &'a mut [u8], } impl<'a> Drop for PktRef<'a> { fn drop(&mut self) { // Flush buffer from cache, to be filled by the peripheral // before next read dcci_slice(self.buffer); self.entry.word0.modify(|_, w| w.used(false)); dmb(); } } impl<'a> Deref for PktRef<'a> { type Target = [u8]; fn deref(&self) -> &Self::Target { self.buffer } } impl<'a> smoltcp::phy::RxToken for PktRef<'a> { fn consume(self, _timestamp: smoltcp::time::Instant, f: F) -> smoltcp::Result where F: FnOnce(&mut [u8]) -> smoltcp::Result { f(self.buffer) } }