mirror of https://github.com/m-labs/artiq.git
889 lines
34 KiB
Rust
889 lines
34 KiB
Rust
#![feature(never_type, panic_info_message, llvm_asm, default_alloc_error_handler, try_trait)]
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#![no_std]
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#[macro_use]
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extern crate log;
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#[macro_use]
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extern crate board_misoc;
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extern crate board_artiq;
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extern crate riscv;
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extern crate alloc;
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extern crate proto_artiq;
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extern crate cslice;
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extern crate io;
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extern crate eh;
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use core::convert::TryFrom;
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use board_misoc::{csr, ident, clock, uart_logger, i2c, pmp};
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#[cfg(has_si5324)]
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use board_artiq::si5324;
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use board_artiq::{spi, drtioaux, drtio_routing};
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#[cfg(soc_platform = "efc")]
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use board_artiq::ad9117;
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use proto_artiq::drtioaux_proto::{SAT_PAYLOAD_MAX_SIZE, MASTER_PAYLOAD_MAX_SIZE};
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#[cfg(has_drtio_eem)]
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use board_artiq::drtio_eem;
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use riscv::register::{mcause, mepc, mtval};
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use dma::Manager as DmaManager;
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use kernel::Manager as KernelManager;
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use analyzer::Analyzer;
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#[global_allocator]
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static mut ALLOC: alloc_list::ListAlloc = alloc_list::EMPTY;
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mod repeater;
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mod routing;
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mod dma;
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mod analyzer;
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mod kernel;
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mod cache;
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fn drtiosat_reset(reset: bool) {
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unsafe {
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csr::drtiosat::reset_write(if reset { 1 } else { 0 });
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}
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}
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fn drtiosat_reset_phy(reset: bool) {
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unsafe {
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csr::drtiosat::reset_phy_write(if reset { 1 } else { 0 });
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}
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}
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fn drtiosat_link_rx_up() -> bool {
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unsafe {
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csr::drtiosat::rx_up_read() == 1
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}
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}
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fn drtiosat_tsc_loaded() -> bool {
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unsafe {
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let tsc_loaded = csr::drtiosat::tsc_loaded_read() == 1;
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if tsc_loaded {
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csr::drtiosat::tsc_loaded_write(1);
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}
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tsc_loaded
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}
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}
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fn drtiosat_async_ready() {
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unsafe {
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csr::drtiosat::async_messages_ready_write(1);
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}
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}
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pub enum RtioMaster {
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Drtio,
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Dma,
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Kernel
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}
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pub fn cricon_select(master: RtioMaster) {
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let val = match master {
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RtioMaster::Drtio => 0,
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RtioMaster::Dma => 1,
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RtioMaster::Kernel => 2
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};
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unsafe {
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csr::cri_con::selected_write(val);
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}
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}
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#[cfg(has_drtio_routing)]
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macro_rules! forward {
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($routing_table:expr, $destination:expr, $rank:expr, $repeaters:expr, $packet:expr) => {{
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let hop = $routing_table.0[$destination as usize][$rank as usize];
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if hop != 0 {
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let repno = (hop - 1) as usize;
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if repno < $repeaters.len() {
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if $packet.expects_response() {
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return $repeaters[repno].aux_forward($packet);
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} else {
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let res = $repeaters[repno].aux_send($packet);
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// allow the satellite to parse the packet before next
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clock::spin_us(10_000);
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return res;
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}
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} else {
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return Err(drtioaux::Error::RoutingError);
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}
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}
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}}
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}
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#[cfg(not(has_drtio_routing))]
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macro_rules! forward {
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($routing_table:expr, $destination:expr, $rank:expr, $repeaters:expr, $packet:expr) => {}
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}
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fn process_aux_packet(dmamgr: &mut DmaManager, analyzer: &mut Analyzer, kernelmgr: &mut KernelManager,
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_repeaters: &mut [repeater::Repeater], _routing_table: &mut drtio_routing::RoutingTable, rank: &mut u8,
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router: &mut routing::Router, self_destination: &mut u8, packet: drtioaux::Packet
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) -> Result<(), drtioaux::Error<!>> {
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// In the code below, *_chan_sel_write takes an u8 if there are fewer than 256 channels,
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// and u16 otherwise; hence the `as _` conversion.
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match packet {
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drtioaux::Packet::EchoRequest =>
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drtioaux::send(0, &drtioaux::Packet::EchoReply),
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drtioaux::Packet::ResetRequest => {
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info!("resetting RTIO");
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drtiosat_reset(true);
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clock::spin_us(100);
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drtiosat_reset(false);
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for rep in _repeaters.iter() {
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if let Err(e) = rep.rtio_reset() {
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error!("failed to issue RTIO reset ({})", e);
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}
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}
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drtioaux::send(0, &drtioaux::Packet::ResetAck)
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},
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drtioaux::Packet::DestinationStatusRequest { destination } => {
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#[cfg(has_drtio_routing)]
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let hop = _routing_table.0[destination as usize][*rank as usize];
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#[cfg(not(has_drtio_routing))]
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let hop = 0;
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if hop == 0 {
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*self_destination = destination;
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let errors;
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unsafe {
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errors = csr::drtiosat::rtio_error_read();
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}
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if errors & 1 != 0 {
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let channel;
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unsafe {
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channel = csr::drtiosat::sequence_error_channel_read();
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csr::drtiosat::rtio_error_write(1);
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}
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drtioaux::send(0,
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&drtioaux::Packet::DestinationSequenceErrorReply { channel })?;
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} else if errors & 2 != 0 {
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let channel;
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unsafe {
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channel = csr::drtiosat::collision_channel_read();
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csr::drtiosat::rtio_error_write(2);
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}
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drtioaux::send(0,
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&drtioaux::Packet::DestinationCollisionReply { channel })?;
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} else if errors & 4 != 0 {
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let channel;
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unsafe {
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channel = csr::drtiosat::busy_channel_read();
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csr::drtiosat::rtio_error_write(4);
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}
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drtioaux::send(0,
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&drtioaux::Packet::DestinationBusyReply { channel })?;
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}
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else {
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drtioaux::send(0, &drtioaux::Packet::DestinationOkReply)?;
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}
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}
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#[cfg(has_drtio_routing)]
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{
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if hop != 0 {
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let hop = hop as usize;
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if hop <= csr::DRTIOREP.len() {
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let repno = hop - 1;
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match _repeaters[repno].aux_forward(&drtioaux::Packet::DestinationStatusRequest {
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destination: destination
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}) {
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Ok(()) => (),
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Err(drtioaux::Error::LinkDown) => drtioaux::send(0, &drtioaux::Packet::DestinationDownReply)?,
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Err(e) => {
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drtioaux::send(0, &drtioaux::Packet::DestinationDownReply)?;
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error!("aux error when handling destination status request: {}", e);
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},
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}
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} else {
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drtioaux::send(0, &drtioaux::Packet::DestinationDownReply)?;
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}
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}
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}
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Ok(())
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}
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#[cfg(has_drtio_routing)]
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drtioaux::Packet::RoutingSetPath { destination, hops } => {
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_routing_table.0[destination as usize] = hops;
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for rep in _repeaters.iter() {
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if let Err(e) = rep.set_path(destination, &hops) {
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error!("failed to set path ({})", e);
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}
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}
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drtioaux::send(0, &drtioaux::Packet::RoutingAck)
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}
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#[cfg(has_drtio_routing)]
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drtioaux::Packet::RoutingSetRank { rank: new_rank } => {
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*rank = new_rank;
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drtio_routing::interconnect_enable_all(_routing_table, new_rank);
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let rep_rank = new_rank + 1;
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for rep in _repeaters.iter() {
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if let Err(e) = rep.set_rank(rep_rank) {
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error!("failed to set rank ({})", e);
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}
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}
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info!("rank: {}", new_rank);
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info!("routing table: {}", _routing_table);
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drtioaux::send(0, &drtioaux::Packet::RoutingAck)
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}
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#[cfg(not(has_drtio_routing))]
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drtioaux::Packet::RoutingSetPath { destination: _, hops: _ } => {
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drtioaux::send(0, &drtioaux::Packet::RoutingAck)
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}
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#[cfg(not(has_drtio_routing))]
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drtioaux::Packet::RoutingSetRank { rank: _ } => {
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drtioaux::send(0, &drtioaux::Packet::RoutingAck)
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}
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drtioaux::Packet::RoutingRetrievePackets => {
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let packet = router.get_upstream_packet().or(
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Some(drtioaux::Packet::RoutingNoPackets)).unwrap();
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drtioaux::send(0, &packet)
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}
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drtioaux::Packet::MonitorRequest { destination: _destination, channel, probe } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let value;
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#[cfg(has_rtio_moninj)]
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unsafe {
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csr::rtio_moninj::mon_chan_sel_write(channel as _);
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csr::rtio_moninj::mon_probe_sel_write(probe);
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csr::rtio_moninj::mon_value_update_write(1);
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value = csr::rtio_moninj::mon_value_read() as u64;
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}
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#[cfg(not(has_rtio_moninj))]
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{
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value = 0;
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}
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let reply = drtioaux::Packet::MonitorReply { value: value };
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drtioaux::send(0, &reply)
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},
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drtioaux::Packet::InjectionRequest { destination: _destination, channel, overrd, value } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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#[cfg(has_rtio_moninj)]
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unsafe {
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csr::rtio_moninj::inj_chan_sel_write(channel as _);
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csr::rtio_moninj::inj_override_sel_write(overrd);
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csr::rtio_moninj::inj_value_write(value);
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}
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Ok(())
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},
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drtioaux::Packet::InjectionStatusRequest { destination: _destination, channel, overrd } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let value;
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#[cfg(has_rtio_moninj)]
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unsafe {
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csr::rtio_moninj::inj_chan_sel_write(channel as _);
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csr::rtio_moninj::inj_override_sel_write(overrd);
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value = csr::rtio_moninj::inj_value_read();
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}
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#[cfg(not(has_rtio_moninj))]
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{
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value = 0;
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}
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drtioaux::send(0, &drtioaux::Packet::InjectionStatusReply { value: value })
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},
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drtioaux::Packet::I2cStartRequest { destination: _destination, busno } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = i2c::start(busno).is_ok();
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drtioaux::send(0, &drtioaux::Packet::I2cBasicReply { succeeded: succeeded })
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}
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drtioaux::Packet::I2cRestartRequest { destination: _destination, busno } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = i2c::restart(busno).is_ok();
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drtioaux::send(0, &drtioaux::Packet::I2cBasicReply { succeeded: succeeded })
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}
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drtioaux::Packet::I2cStopRequest { destination: _destination, busno } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = i2c::stop(busno).is_ok();
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drtioaux::send(0, &drtioaux::Packet::I2cBasicReply { succeeded: succeeded })
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}
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drtioaux::Packet::I2cWriteRequest { destination: _destination, busno, data } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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match i2c::write(busno, data) {
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Ok(ack) => drtioaux::send(0,
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&drtioaux::Packet::I2cWriteReply { succeeded: true, ack: ack }),
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Err(_) => drtioaux::send(0,
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&drtioaux::Packet::I2cWriteReply { succeeded: false, ack: false })
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}
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}
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drtioaux::Packet::I2cReadRequest { destination: _destination, busno, ack } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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match i2c::read(busno, ack) {
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Ok(data) => drtioaux::send(0,
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&drtioaux::Packet::I2cReadReply { succeeded: true, data: data }),
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Err(_) => drtioaux::send(0,
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&drtioaux::Packet::I2cReadReply { succeeded: false, data: 0xff })
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}
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}
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drtioaux::Packet::I2cSwitchSelectRequest { destination: _destination, busno, address, mask } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = i2c::switch_select(busno, address, mask).is_ok();
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drtioaux::send(0, &drtioaux::Packet::I2cBasicReply { succeeded: succeeded })
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}
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drtioaux::Packet::SpiSetConfigRequest { destination: _destination, busno, flags, length, div, cs } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = spi::set_config(busno, flags, length, div, cs).is_ok();
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drtioaux::send(0,
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&drtioaux::Packet::SpiBasicReply { succeeded: succeeded })
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},
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drtioaux::Packet::SpiWriteRequest { destination: _destination, busno, data } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = spi::write(busno, data).is_ok();
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drtioaux::send(0,
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&drtioaux::Packet::SpiBasicReply { succeeded: succeeded })
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}
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drtioaux::Packet::SpiReadRequest { destination: _destination, busno } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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match spi::read(busno) {
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Ok(data) => drtioaux::send(0,
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&drtioaux::Packet::SpiReadReply { succeeded: true, data: data }),
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Err(_) => drtioaux::send(0,
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&drtioaux::Packet::SpiReadReply { succeeded: false, data: 0 })
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}
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}
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drtioaux::Packet::AnalyzerHeaderRequest { destination: _destination } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let header = analyzer.get_header();
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drtioaux::send(0, &drtioaux::Packet::AnalyzerHeader {
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total_byte_count: header.total_byte_count,
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sent_bytes: header.sent_bytes,
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overflow_occurred: header.overflow,
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})
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}
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drtioaux::Packet::AnalyzerDataRequest { destination: _destination } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let mut data_slice: [u8; SAT_PAYLOAD_MAX_SIZE] = [0; SAT_PAYLOAD_MAX_SIZE];
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let meta = analyzer.get_data(&mut data_slice);
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drtioaux::send(0, &drtioaux::Packet::AnalyzerData {
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last: meta.last,
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length: meta.len,
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data: data_slice,
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})
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}
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drtioaux::Packet::DmaAddTraceRequest { source, destination, id, status, length, trace } => {
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forward!(_routing_table, destination, *rank, _repeaters, &packet);
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*self_destination = destination;
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let succeeded = dmamgr.add(source, id, status, &trace, length as usize).is_ok();
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router.send(drtioaux::Packet::DmaAddTraceReply {
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source: *self_destination, destination: source, id: id, succeeded: succeeded
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}, _routing_table, *rank, *self_destination)
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}
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drtioaux::Packet::DmaAddTraceReply { source, destination: _destination, id, succeeded } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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dmamgr.ack_upload(kernelmgr, source, id, succeeded, router, *rank, *self_destination, _routing_table);
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Ok(())
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}
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drtioaux::Packet::DmaRemoveTraceRequest { source, destination: _destination, id } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let succeeded = dmamgr.erase(source, id).is_ok();
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router.send(drtioaux::Packet::DmaRemoveTraceReply {
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destination: source, succeeded: succeeded
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}, _routing_table, *rank, *self_destination)
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}
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drtioaux::Packet::DmaPlaybackRequest { source, destination: _destination, id, timestamp } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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// no DMA with a running kernel
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let succeeded = !kernelmgr.is_running() && dmamgr.playback(source, id, timestamp).is_ok();
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router.send(drtioaux::Packet::DmaPlaybackReply {
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destination: source, succeeded: succeeded
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}, _routing_table, *rank, *self_destination)
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}
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drtioaux::Packet::DmaPlaybackReply { destination: _destination, succeeded } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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if !succeeded {
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kernelmgr.ddma_nack();
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}
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Ok(())
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}
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drtioaux::Packet::DmaPlaybackStatus { source: _, destination: _destination, id, error, channel, timestamp } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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dmamgr.remote_finished(kernelmgr, id, error, channel, timestamp);
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Ok(())
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}
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drtioaux::Packet::SubkernelAddDataRequest { destination, id, status, length, data } => {
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forward!(_routing_table, destination, *rank, _repeaters, &packet);
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*self_destination = destination;
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let succeeded = kernelmgr.add(id, status, &data, length as usize).is_ok();
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drtioaux::send(0,
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&drtioaux::Packet::SubkernelAddDataReply { succeeded: succeeded })
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}
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drtioaux::Packet::SubkernelLoadRunRequest { source, destination: _destination, id, run } => {
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forward!(_routing_table, _destination, *rank, _repeaters, &packet);
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let mut succeeded = kernelmgr.load(id).is_ok();
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// allow preloading a kernel with delayed run
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if run {
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if dmamgr.running() {
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// cannot run kernel while DDMA is running
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succeeded = false;
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} else {
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succeeded |= kernelmgr.run(source, id).is_ok();
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}
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}
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router.send(drtioaux::Packet::SubkernelLoadRunReply {
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destination: source, succeeded: succeeded
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},
|
|
_routing_table, *rank, *self_destination)
|
|
}
|
|
drtioaux::Packet::SubkernelLoadRunReply { destination: _destination, succeeded } => {
|
|
forward!(_routing_table, _destination, *rank, _repeaters, &packet);
|
|
// received if local subkernel started another, remote subkernel
|
|
kernelmgr.subkernel_load_run_reply(succeeded, *self_destination);
|
|
Ok(())
|
|
}
|
|
drtioaux::Packet::SubkernelFinished { destination: _destination, id, with_exception, exception_src } => {
|
|
forward!(_routing_table, _destination, *rank, _repeaters, &packet);
|
|
kernelmgr.remote_subkernel_finished(id, with_exception, exception_src);
|
|
Ok(())
|
|
}
|
|
drtioaux::Packet::SubkernelExceptionRequest { destination: _destination } => {
|
|
forward!(_routing_table, _destination, *rank, _repeaters, &packet);
|
|
let mut data_slice: [u8; SAT_PAYLOAD_MAX_SIZE] = [0; SAT_PAYLOAD_MAX_SIZE];
|
|
let meta = kernelmgr.exception_get_slice(&mut data_slice);
|
|
drtioaux::send(0, &drtioaux::Packet::SubkernelException {
|
|
last: meta.status.is_last(),
|
|
length: meta.len,
|
|
data: data_slice,
|
|
})
|
|
}
|
|
drtioaux::Packet::SubkernelMessage { source, destination: _destination, id, status, length, data } => {
|
|
forward!(_routing_table, _destination, *rank, _repeaters, &packet);
|
|
kernelmgr.message_handle_incoming(status, length as usize, id, &data);
|
|
router.send(drtioaux::Packet::SubkernelMessageAck {
|
|
destination: source
|
|
}, _routing_table, *rank, *self_destination)
|
|
}
|
|
drtioaux::Packet::SubkernelMessageAck { destination: _destination } => {
|
|
forward!(_routing_table, _destination, *rank, _repeaters, &packet);
|
|
if kernelmgr.message_ack_slice() {
|
|
let mut data_slice: [u8; MASTER_PAYLOAD_MAX_SIZE] = [0; MASTER_PAYLOAD_MAX_SIZE];
|
|
if let Some(meta) = kernelmgr.message_get_slice(&mut data_slice) {
|
|
// route and not send immediately as ACKs are not a beginning of a transaction
|
|
router.route(drtioaux::Packet::SubkernelMessage {
|
|
source: *self_destination, destination: meta.destination, id: kernelmgr.get_current_id().unwrap(),
|
|
status: meta.status, length: meta.len as u16, data: data_slice
|
|
}, _routing_table, *rank, *self_destination);
|
|
} else {
|
|
error!("Error receiving message slice");
|
|
}
|
|
}
|
|
Ok(())
|
|
}
|
|
|
|
_ => {
|
|
warn!("received unexpected aux packet");
|
|
Ok(())
|
|
}
|
|
}
|
|
}
|
|
|
|
fn process_aux_packets(dma_manager: &mut DmaManager, analyzer: &mut Analyzer,
|
|
kernelmgr: &mut KernelManager, repeaters: &mut [repeater::Repeater],
|
|
routing_table: &mut drtio_routing::RoutingTable, rank: &mut u8, router: &mut routing::Router,
|
|
destination: &mut u8) {
|
|
let result =
|
|
drtioaux::recv(0).and_then(|packet| {
|
|
if let Some(packet) = packet.or_else(|| router.get_local_packet()) {
|
|
process_aux_packet(dma_manager, analyzer, kernelmgr,
|
|
repeaters, routing_table, rank, router, destination, packet)
|
|
} else {
|
|
Ok(())
|
|
}
|
|
});
|
|
if let Err(e) = result {
|
|
warn!("aux packet error ({})", e);
|
|
}
|
|
}
|
|
|
|
fn drtiosat_process_errors() {
|
|
let errors = unsafe { csr::drtiosat::protocol_error_read() };
|
|
if errors & 1 != 0 {
|
|
error!("received packet of an unknown type");
|
|
}
|
|
if errors & 2 != 0 {
|
|
error!("received truncated packet");
|
|
}
|
|
if errors & 4 != 0 {
|
|
let destination = unsafe {
|
|
csr::drtiosat::buffer_space_timeout_dest_read()
|
|
};
|
|
error!("timeout attempting to get buffer space from CRI, destination=0x{:02x}", destination)
|
|
}
|
|
let drtiosat_active = unsafe { csr::cri_con::selected_read() == 0 };
|
|
if drtiosat_active {
|
|
// RTIO errors are handled by ksupport and dma manager
|
|
if errors & 8 != 0 {
|
|
let channel;
|
|
let timestamp_event;
|
|
let timestamp_counter;
|
|
unsafe {
|
|
channel = csr::drtiosat::underflow_channel_read();
|
|
timestamp_event = csr::drtiosat::underflow_timestamp_event_read() as i64;
|
|
timestamp_counter = csr::drtiosat::underflow_timestamp_counter_read() as i64;
|
|
}
|
|
error!("write underflow, channel={}, timestamp={}, counter={}, slack={}",
|
|
channel, timestamp_event, timestamp_counter, timestamp_event-timestamp_counter);
|
|
}
|
|
if errors & 16 != 0 {
|
|
error!("write overflow");
|
|
}
|
|
}
|
|
unsafe {
|
|
csr::drtiosat::protocol_error_write(errors);
|
|
}
|
|
}
|
|
|
|
|
|
#[cfg(has_rtio_crg)]
|
|
fn init_rtio_crg() {
|
|
unsafe {
|
|
csr::rtio_crg::pll_reset_write(0);
|
|
}
|
|
clock::spin_us(150);
|
|
let locked = unsafe { csr::rtio_crg::pll_locked_read() != 0 };
|
|
if !locked {
|
|
error!("RTIO clock failed");
|
|
}
|
|
}
|
|
|
|
#[cfg(not(has_rtio_crg))]
|
|
fn init_rtio_crg() { }
|
|
|
|
fn hardware_tick(ts: &mut u64) {
|
|
let now = clock::get_ms();
|
|
if now > *ts {
|
|
#[cfg(has_grabber)]
|
|
board_artiq::grabber::tick();
|
|
*ts = now + 200;
|
|
}
|
|
}
|
|
|
|
#[cfg(all(has_si5324, rtio_frequency = "125.0"))]
|
|
const SI5324_SETTINGS: si5324::FrequencySettings
|
|
= si5324::FrequencySettings {
|
|
n1_hs : 5,
|
|
nc1_ls : 8,
|
|
n2_hs : 7,
|
|
n2_ls : 360,
|
|
n31 : 63,
|
|
n32 : 63,
|
|
bwsel : 4,
|
|
crystal_as_ckin2: true
|
|
};
|
|
|
|
#[cfg(all(has_si5324, rtio_frequency = "100.0"))]
|
|
const SI5324_SETTINGS: si5324::FrequencySettings
|
|
= si5324::FrequencySettings {
|
|
n1_hs : 5,
|
|
nc1_ls : 10,
|
|
n2_hs : 10,
|
|
n2_ls : 250,
|
|
n31 : 50,
|
|
n32 : 50,
|
|
bwsel : 4,
|
|
crystal_as_ckin2: true
|
|
};
|
|
|
|
#[cfg(not(soc_platform = "efc"))]
|
|
fn sysclk_setup() {
|
|
let switched = unsafe {
|
|
csr::crg::switch_done_read()
|
|
};
|
|
if switched == 1 {
|
|
info!("Clocking has already been set up.");
|
|
return;
|
|
}
|
|
else {
|
|
#[cfg(has_si5324)]
|
|
si5324::setup(&SI5324_SETTINGS, si5324::Input::Ckin1).expect("cannot initialize Si5324");
|
|
info!("Switching sys clock, rebooting...");
|
|
// delay for clean UART log, wait until UART FIFO is empty
|
|
clock::spin_us(3000);
|
|
unsafe {
|
|
csr::gt_drtio::stable_clkin_write(1);
|
|
}
|
|
loop {}
|
|
}
|
|
}
|
|
|
|
|
|
#[no_mangle]
|
|
pub extern fn main() -> i32 {
|
|
extern {
|
|
static mut _fheap: u8;
|
|
static mut _eheap: u8;
|
|
static mut _sstack_guard: u8;
|
|
}
|
|
|
|
unsafe {
|
|
ALLOC.add_range(&mut _fheap, &mut _eheap);
|
|
pmp::init_stack_guard(&_sstack_guard as *const u8 as usize);
|
|
}
|
|
|
|
clock::init();
|
|
uart_logger::ConsoleLogger::register();
|
|
|
|
info!("ARTIQ satellite manager starting...");
|
|
info!("software ident {}", csr::CONFIG_IDENTIFIER_STR);
|
|
info!("gateware ident {}", ident::read(&mut [0; 64]));
|
|
|
|
#[cfg(has_i2c)]
|
|
i2c::init().expect("I2C initialization failed");
|
|
#[cfg(all(soc_platform = "kasli", hw_rev = "v2.0"))]
|
|
let (mut io_expander0, mut io_expander1);
|
|
#[cfg(all(soc_platform = "kasli", hw_rev = "v2.0"))]
|
|
{
|
|
io_expander0 = board_misoc::io_expander::IoExpander::new(0).unwrap();
|
|
io_expander1 = board_misoc::io_expander::IoExpander::new(1).unwrap();
|
|
io_expander0.init().expect("I2C I/O expander #0 initialization failed");
|
|
io_expander1.init().expect("I2C I/O expander #1 initialization failed");
|
|
|
|
// Actively drive TX_DISABLE to false on SFP0..3
|
|
io_expander0.set_oe(0, 1 << 1).unwrap();
|
|
io_expander0.set_oe(1, 1 << 1).unwrap();
|
|
io_expander1.set_oe(0, 1 << 1).unwrap();
|
|
io_expander1.set_oe(1, 1 << 1).unwrap();
|
|
io_expander0.set(0, 1, false);
|
|
io_expander0.set(1, 1, false);
|
|
io_expander1.set(0, 1, false);
|
|
io_expander1.set(1, 1, false);
|
|
io_expander0.service().unwrap();
|
|
io_expander1.service().unwrap();
|
|
}
|
|
|
|
#[cfg(not(soc_platform = "efc"))]
|
|
sysclk_setup();
|
|
|
|
#[cfg(soc_platform = "efc")]
|
|
let mut io_expander;
|
|
#[cfg(soc_platform = "efc")]
|
|
{
|
|
io_expander = board_misoc::io_expander::IoExpander::new().unwrap();
|
|
io_expander.init().expect("I2C I/O expander initialization failed");
|
|
|
|
// Enable LEDs
|
|
io_expander.set_oe(0, 1 << 5 | 1 << 6 | 1 << 7).unwrap();
|
|
|
|
// Enable VADJ and P3V3_FMC
|
|
io_expander.set_oe(1, 1 << 0 | 1 << 1).unwrap();
|
|
|
|
io_expander.set(1, 0, true);
|
|
io_expander.set(1, 1, true);
|
|
|
|
io_expander.service().unwrap();
|
|
}
|
|
|
|
#[cfg(not(has_drtio_eem))]
|
|
unsafe {
|
|
csr::gt_drtio::txenable_write(0xffffffffu32 as _);
|
|
}
|
|
|
|
#[cfg(has_drtio_eem)]
|
|
unsafe {
|
|
csr::eem_transceiver::txenable_write(0xffffffffu32 as _);
|
|
}
|
|
|
|
init_rtio_crg();
|
|
|
|
#[cfg(has_drtio_eem)]
|
|
drtio_eem::init();
|
|
|
|
#[cfg(has_drtio_routing)]
|
|
let mut repeaters = [repeater::Repeater::default(); csr::DRTIOREP.len()];
|
|
#[cfg(not(has_drtio_routing))]
|
|
let mut repeaters = [repeater::Repeater::default(); 0];
|
|
for i in 0..repeaters.len() {
|
|
repeaters[i] = repeater::Repeater::new(i as u8);
|
|
}
|
|
let mut routing_table = drtio_routing::RoutingTable::default_empty();
|
|
let mut rank = 1;
|
|
let mut destination = 1;
|
|
|
|
let mut hardware_tick_ts = 0;
|
|
|
|
#[cfg(soc_platform = "efc")]
|
|
ad9117::init().expect("AD9117 initialization failed");
|
|
|
|
loop {
|
|
let mut router = routing::Router::new();
|
|
|
|
while !drtiosat_link_rx_up() {
|
|
drtiosat_process_errors();
|
|
for rep in repeaters.iter_mut() {
|
|
rep.service(&routing_table, rank, destination, &mut router);
|
|
}
|
|
#[cfg(all(soc_platform = "kasli", hw_rev = "v2.0"))]
|
|
{
|
|
io_expander0.service().expect("I2C I/O expander #0 service failed");
|
|
io_expander1.service().expect("I2C I/O expander #1 service failed");
|
|
}
|
|
#[cfg(soc_platform = "efc")]
|
|
io_expander.service().expect("I2C I/O expander service failed");
|
|
hardware_tick(&mut hardware_tick_ts);
|
|
}
|
|
|
|
info!("uplink is up, switching to recovered clock");
|
|
#[cfg(has_si5324)]
|
|
{
|
|
si5324::siphaser::select_recovered_clock(true).expect("failed to switch clocks");
|
|
si5324::siphaser::calibrate_skew().expect("failed to calibrate skew");
|
|
}
|
|
|
|
// various managers created here, so when link is dropped, DMA traces,
|
|
// analyzer logs, kernels are cleared and/or stopped for a clean slate
|
|
// on subsequent connections, without a manual intervention.
|
|
let mut dma_manager = DmaManager::new();
|
|
let mut analyzer = Analyzer::new();
|
|
let mut kernelmgr = KernelManager::new();
|
|
|
|
cricon_select(RtioMaster::Drtio);
|
|
drtioaux::reset(0);
|
|
drtiosat_reset(false);
|
|
drtiosat_reset_phy(false);
|
|
|
|
while drtiosat_link_rx_up() {
|
|
drtiosat_process_errors();
|
|
process_aux_packets(&mut dma_manager, &mut analyzer,
|
|
&mut kernelmgr, &mut repeaters, &mut routing_table,
|
|
&mut rank, &mut router, &mut destination);
|
|
for rep in repeaters.iter_mut() {
|
|
rep.service(&routing_table, rank, destination, &mut router);
|
|
}
|
|
#[cfg(all(soc_platform = "kasli", hw_rev = "v2.0"))]
|
|
{
|
|
io_expander0.service().expect("I2C I/O expander #0 service failed");
|
|
io_expander1.service().expect("I2C I/O expander #1 service failed");
|
|
}
|
|
#[cfg(soc_platform = "efc")]
|
|
io_expander.service().expect("I2C I/O expander service failed");
|
|
hardware_tick(&mut hardware_tick_ts);
|
|
if drtiosat_tsc_loaded() {
|
|
info!("TSC loaded from uplink");
|
|
for rep in repeaters.iter() {
|
|
if let Err(e) = rep.sync_tsc() {
|
|
error!("failed to sync TSC ({})", e);
|
|
}
|
|
}
|
|
if let Err(e) = drtioaux::send(0, &drtioaux::Packet::TSCAck) {
|
|
error!("aux packet error: {}", e);
|
|
}
|
|
}
|
|
if let Some(status) = dma_manager.get_status() {
|
|
info!("playback done, error: {}, channel: {}, timestamp: {}", status.error, status.channel, status.timestamp);
|
|
router.route(drtioaux::Packet::DmaPlaybackStatus {
|
|
source: destination, destination: status.source, id: status.id,
|
|
error: status.error, channel: status.channel, timestamp: status.timestamp
|
|
}, &routing_table, rank, destination);
|
|
}
|
|
|
|
kernelmgr.process_kern_requests(&mut router, &routing_table, rank, destination, &mut dma_manager);
|
|
|
|
#[cfg(has_drtio_routing)]
|
|
if let Some((repno, packet)) = router.get_downstream_packet() {
|
|
if let Err(e) = repeaters[repno].aux_send(&packet) {
|
|
warn!("[REP#{}] Error when sending packet to satellite ({:?})", repno, e)
|
|
}
|
|
}
|
|
|
|
if router.any_upstream_waiting() {
|
|
drtiosat_async_ready();
|
|
}
|
|
}
|
|
|
|
drtiosat_reset_phy(true);
|
|
drtiosat_reset(true);
|
|
drtiosat_tsc_loaded();
|
|
info!("uplink is down, switching to local oscillator clock");
|
|
#[cfg(has_si5324)]
|
|
si5324::siphaser::select_recovered_clock(false).expect("failed to switch clocks");
|
|
}
|
|
}
|
|
|
|
#[cfg(soc_platform = "efc")]
|
|
fn enable_error_led() {
|
|
let mut io_expander = board_misoc::io_expander::IoExpander::new().unwrap();
|
|
|
|
// Keep LEDs enabled
|
|
io_expander.set_oe(0, 1 << 5 | 1 << 6 | 1 << 7).unwrap();
|
|
// Enable Error LED
|
|
io_expander.set(0, 7, true);
|
|
|
|
// Keep VADJ and P3V3_FMC enabled
|
|
io_expander.set_oe(1, 1 << 0 | 1 << 1).unwrap();
|
|
|
|
io_expander.set(1, 0, true);
|
|
io_expander.set(1, 1, true);
|
|
|
|
io_expander.service().unwrap();
|
|
}
|
|
|
|
#[no_mangle]
|
|
pub extern fn exception(_regs: *const u32) {
|
|
let pc = mepc::read();
|
|
let cause = mcause::read().cause();
|
|
|
|
fn hexdump(addr: u32) {
|
|
let addr = (addr - addr % 4) as *const u32;
|
|
let mut ptr = addr;
|
|
println!("@ {:08p}", ptr);
|
|
for _ in 0..4 {
|
|
print!("+{:04x}: ", ptr as usize - addr as usize);
|
|
print!("{:08x} ", unsafe { *ptr }); ptr = ptr.wrapping_offset(1);
|
|
print!("{:08x} ", unsafe { *ptr }); ptr = ptr.wrapping_offset(1);
|
|
print!("{:08x} ", unsafe { *ptr }); ptr = ptr.wrapping_offset(1);
|
|
print!("{:08x}\n", unsafe { *ptr }); ptr = ptr.wrapping_offset(1);
|
|
}
|
|
}
|
|
|
|
hexdump(u32::try_from(pc).unwrap());
|
|
let mtval = mtval::read();
|
|
panic!("exception {:?} at PC 0x{:x}, trap value 0x{:x}", cause, u32::try_from(pc).unwrap(), mtval)
|
|
}
|
|
|
|
#[no_mangle]
|
|
pub extern fn abort() {
|
|
println!("aborted");
|
|
loop {}
|
|
}
|
|
|
|
#[no_mangle] // https://github.com/rust-lang/rust/issues/{38281,51647}
|
|
#[panic_handler]
|
|
pub fn panic_fmt(info: &core::panic::PanicInfo) -> ! {
|
|
#[cfg(has_error_led)]
|
|
unsafe {
|
|
csr::error_led::out_write(1);
|
|
}
|
|
|
|
if let Some(location) = info.location() {
|
|
print!("panic at {}:{}:{}", location.file(), location.line(), location.column());
|
|
#[cfg(soc_platform = "efc")]
|
|
{
|
|
if location.file() != "libboard_misoc/io_expander.rs" {
|
|
enable_error_led();
|
|
}
|
|
}
|
|
} else {
|
|
print!("panic at unknown location");
|
|
#[cfg(soc_platform = "efc")]
|
|
enable_error_led();
|
|
}
|
|
if let Some(message) = info.message() {
|
|
println!(": {}", message);
|
|
} else {
|
|
println!("");
|
|
}
|
|
loop {}
|
|
}
|