mirror of https://github.com/m-labs/artiq
447 lines
16 KiB
Rust
447 lines
16 KiB
Rust
use alloc::{vec::Vec, collections::btree_map::BTreeMap, string::String};
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use core::mem;
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use board_artiq::{drtioaux, drtio_routing::RoutingTable};
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use board_misoc::{csr, cache::flush_l2_cache};
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use proto_artiq::drtioaux_proto::PayloadStatus;
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use routing::{Router, Sliceable};
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use kernel::Manager as KernelManager;
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use ::{cricon_select, cricon_read, RtioMaster, MASTER_PAYLOAD_MAX_SIZE};
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const ALIGNMENT: usize = 64;
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#[derive(PartialEq)]
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enum ManagerState {
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Idle,
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Playback
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}
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pub struct RtioStatus {
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pub source: u8,
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pub id: u32,
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pub error: u8,
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pub channel: u32,
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pub timestamp: u64
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}
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#[derive(Debug)]
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pub enum Error {
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IdNotFound,
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PlaybackInProgress,
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EntryNotComplete,
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MasterDmaFound,
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UploadFail,
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}
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struct Entry {
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trace: Vec<u8>,
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padding_len: usize,
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complete: bool,
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duration: u64, // relevant for locally ran DMA
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}
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impl Entry {
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pub fn from_vec(data: Vec<u8>, duration: u64) -> Entry {
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let mut entry = Entry {
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trace: data,
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padding_len: 0,
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complete: true,
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duration: duration,
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};
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entry.realign();
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entry
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}
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pub fn id(&self) -> u32 {
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self.trace[self.padding_len..].as_ptr() as u32
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}
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pub fn realign(&mut self) {
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self.trace.push(0);
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let data_len = self.trace.len();
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self.trace.reserve(ALIGNMENT - 1);
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let padding = ALIGNMENT - self.trace.as_ptr() as usize % ALIGNMENT;
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let padding = if padding == ALIGNMENT { 0 } else { padding };
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for _ in 0..padding {
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// Vec guarantees that this will not reallocate
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self.trace.push(0)
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}
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for i in 1..data_len + 1 {
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self.trace[data_len + padding - i] = self.trace[data_len - i]
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}
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self.complete = true;
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self.padding_len = padding;
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}
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}
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enum RemoteTraceState {
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Unsent,
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Sending(usize),
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Ready,
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Running(usize),
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}
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struct RemoteTraces {
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remote_traces: BTreeMap<u8, Sliceable>,
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state: RemoteTraceState,
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}
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impl RemoteTraces {
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pub fn new(traces: BTreeMap<u8, Sliceable>) -> RemoteTraces {
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RemoteTraces {
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remote_traces: traces,
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state: RemoteTraceState::Unsent
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}
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}
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// on subkernel request
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pub fn upload_traces(&mut self, id: u32, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) -> usize {
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let len = self.remote_traces.len();
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if len > 0 {
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self.state = RemoteTraceState::Sending(self.remote_traces.len());
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for (dest, trace) in self.remote_traces.iter_mut() {
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// queue up the first packet for all destinations, rest will be sent after first ACK
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let mut data_slice: [u8; MASTER_PAYLOAD_MAX_SIZE] = [0; MASTER_PAYLOAD_MAX_SIZE];
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let meta = trace.get_slice_master(&mut data_slice);
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router.route(drtioaux::Packet::DmaAddTraceRequest {
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source: self_destination, destination: *dest, id: id,
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status: meta.status, length: meta.len, trace: data_slice
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}, routing_table, rank, self_destination);
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}
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}
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len
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}
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// on incoming Packet::DmaAddTraceReply
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pub fn ack_upload(&mut self, kernel_manager: &mut KernelManager, source: u8, id: u32, succeeded: bool, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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if let RemoteTraceState::Sending(count) = self.state {
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if let Some(trace) = self.remote_traces.get_mut(&source) {
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if trace.at_end() {
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if count - 1 == 0 {
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self.state = RemoteTraceState::Ready;
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kernel_manager.ddma_remote_uploaded(succeeded);
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} else {
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self.state = RemoteTraceState::Sending(count - 1);
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}
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} else {
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// send next slice
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let mut data_slice: [u8; MASTER_PAYLOAD_MAX_SIZE] = [0; MASTER_PAYLOAD_MAX_SIZE];
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let meta = trace.get_slice_master(&mut data_slice);
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router.route(drtioaux::Packet::DmaAddTraceRequest {
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source: self_destination, destination: meta.destination, id: id,
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status: meta.status, length: meta.len, trace: data_slice
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}, routing_table, rank, self_destination);
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}
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}
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}
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}
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// on subkernel request
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pub fn playback(&mut self, id: u32, timestamp: u64, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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// route all the playback requests
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// remote traces + local trace
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self.state = RemoteTraceState::Running(self.remote_traces.len() + 1);
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for (dest, _) in self.remote_traces.iter() {
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router.route(drtioaux::Packet::DmaPlaybackRequest {
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source: self_destination, destination: *dest, id: id, timestamp: timestamp
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}, routing_table, rank, self_destination);
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// response will be ignored (succeeded = false handled by the main thread)
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}
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}
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// on incoming Packet::DmaPlaybackDone
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pub fn remote_finished(&mut self, kernel_manager: &mut KernelManager, error: u8, channel: u32, timestamp: u64) {
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if let RemoteTraceState::Running(count) = self.state {
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if error != 0 || count - 1 == 0 {
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// notify the kernel about a DDMA error or finish
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kernel_manager.ddma_finished(error, channel, timestamp);
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self.state = RemoteTraceState::Ready;
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// further messages will be ignored (if there was an error)
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} else { // no error and not the last one awaited
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self.state = RemoteTraceState::Running(count - 1);
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}
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}
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}
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pub fn erase(&mut self, id: u32, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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for (dest, _) in self.remote_traces.iter() {
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router.route(drtioaux::Packet::DmaRemoveTraceRequest {
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source: self_destination, destination: *dest, id: id
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}, routing_table, rank, self_destination);
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// response will be ignored as this object will stop existing too
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}
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}
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}
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pub struct Manager {
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entries: BTreeMap<(u8, u32), Entry>,
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state: ManagerState,
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current_id: u32,
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current_source: u8,
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previous_cri_master: RtioMaster,
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remote_entries: BTreeMap<u32, RemoteTraces>,
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name_map: BTreeMap<String, u32>,
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recording_trace: Vec<u8>,
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recording_name: String
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}
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impl Manager {
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pub fn new() -> Manager {
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// in case Manager is created during a DMA in progress
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// wait for it to end
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unsafe {
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while csr::rtio_dma::enable_read() != 0 {}
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}
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Manager {
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entries: BTreeMap::new(),
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current_id: 0,
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current_source: 0,
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previous_cri_master: RtioMaster::Drtio,
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state: ManagerState::Idle,
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remote_entries: BTreeMap::new(),
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name_map: BTreeMap::new(),
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recording_trace: Vec::new(),
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recording_name: String::new(),
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}
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}
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pub fn add(&mut self, source: u8, id: u32, status: PayloadStatus, trace: &[u8], trace_len: usize) -> Result<(), Error> {
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if status.is_first() {
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self.entries.remove(&(source, id));
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}
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let entry = match self.entries.get_mut(&(source, id)) {
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Some(entry) => {
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if entry.complete {
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// replace entry
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self.entries.remove(&(source, id));
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self.entries.insert((source, id), Entry {
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trace: Vec::new(),
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padding_len: 0,
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complete: false,
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duration: 0
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});
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self.entries.get_mut(&(source, id)).unwrap()
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} else {
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entry
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}
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},
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None => {
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self.entries.insert((source, id), Entry {
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trace: Vec::new(),
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padding_len: 0,
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complete: false,
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duration: 0,
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});
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self.entries.get_mut(&(source, id)).unwrap()
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},
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};
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entry.trace.extend(&trace[0..trace_len]);
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if status.is_last() {
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entry.realign();
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flush_l2_cache();
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}
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Ok(())
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}
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// API for subkernel
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pub fn record_start(&mut self, name: &str) {
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self.recording_name = String::from(name);
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self.recording_trace = Vec::new();
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}
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// API for subkernel
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pub fn record_append(&mut self, data: &[u8]) {
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self.recording_trace.extend_from_slice(data);
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}
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// API for subkernel
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pub fn record_stop(&mut self, duration: u64, self_destination: u8) -> Result<u32, Error> {
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let mut trace = Vec::new();
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mem::swap(&mut self.recording_trace, &mut trace);
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trace.push(0);
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let mut local_trace = Vec::new();
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let mut remote_traces: BTreeMap<u8, Sliceable> = BTreeMap::new();
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// analyze each entry and put in proper buckets, as the kernel core
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// sends whole chunks, to limit comms/kernel CPU communication,
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// and as only comms core has access to varios DMA buffers.
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let mut ptr = 0;
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while trace[ptr] != 0 {
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// ptr + 3 = tgt >> 24 (destination)
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let len = trace[ptr] as usize;
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let destination = trace[ptr+3];
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if destination == 0 {
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return Err(Error::MasterDmaFound);
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} else if destination == self_destination {
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local_trace.extend(&trace[ptr..ptr+len]);
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}
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else {
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if let Some(remote_trace) = remote_traces.get_mut(&destination) {
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remote_trace.extend(&trace[ptr..ptr+len]);
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} else {
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remote_traces.insert(destination, Sliceable::new(destination, trace[ptr..ptr+len].to_vec()));
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}
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}
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// and jump to the next event
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ptr += len;
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}
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let local_entry = Entry::from_vec(local_trace, duration);
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let id = local_entry.id();
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self.entries.insert((self_destination, id), local_entry);
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self.remote_entries.insert(id, RemoteTraces::new(remote_traces));
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let mut name = String::new();
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mem::swap(&mut self.recording_name, &mut name);
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self.name_map.insert(name, id);
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flush_l2_cache();
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Ok(id)
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}
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pub fn upload_traces(&mut self, id: u32, router: &mut Router, rank: u8, self_destination: u8,
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routing_table: &RoutingTable) -> Result<usize, Error> {
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let remote_traces = self.remote_entries.get_mut(&id);
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let mut len = 0;
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if let Some(traces) = remote_traces {
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len = traces.upload_traces(id, router, rank, self_destination, routing_table);
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}
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Ok(len)
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}
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pub fn with_trace<F, R>(&self, self_destination: u8, name: &str, f: F) -> R
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where F: FnOnce(Option<&[u8]>, u64) -> R {
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if let Some(ptr) = self.name_map.get(name) {
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match self.entries.get(&(self_destination, *ptr)) {
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Some(entry) => f(Some(&entry.trace[entry.padding_len..]), entry.duration),
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None => f(None, 0)
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}
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} else {
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f(None, 0)
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}
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}
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// API for subkernel
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pub fn playback_remote(&mut self, id: u32, timestamp: u64,
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router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable
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) -> Result<(), Error> {
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if let Some(traces) = self.remote_entries.get_mut(&id) {
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traces.playback(id, timestamp, router, rank, self_destination, routing_table);
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Ok(())
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} else {
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Err(Error::IdNotFound)
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}
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}
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// API for subkernel
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pub fn erase_name(&mut self, name: &str, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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if let Some(id) = self.name_map.get(name) {
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if let Some(traces) = self.remote_entries.get_mut(&id) {
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traces.erase(*id, router, rank, self_destination, routing_table);
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self.remote_entries.remove(&id);
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}
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self.entries.remove(&(self_destination, *id));
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self.name_map.remove(name);
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}
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}
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// API for incoming DDMA (drtio)
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pub fn erase(&mut self, source: u8, id: u32) -> Result<(), Error> {
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match self.entries.remove(&(source, id)) {
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Some(_) => Ok(()),
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None => Err(Error::IdNotFound)
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}
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}
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pub fn remote_finished(&mut self, kernel_manager: &mut KernelManager,
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id: u32, error: u8, channel: u32, timestamp: u64) {
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if let Some(entry) = self.remote_entries.get_mut(&id) {
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entry.remote_finished(kernel_manager, error, channel, timestamp);
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}
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}
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pub fn ack_upload(&mut self, kernel_manager: &mut KernelManager, source: u8, id: u32, succeeded: bool,
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router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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if let Some(entry) = self.remote_entries.get_mut(&id) {
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entry.ack_upload(kernel_manager, source, id, succeeded, router, rank, self_destination, routing_table);
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}
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}
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pub fn cleanup(&mut self, router: &mut Router, rank: u8, self_destination: u8, routing_table: &RoutingTable) {
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// after subkernel ends, remove all self-generated traces
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for (_, id) in self.name_map.iter_mut() {
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if let Some(traces) = self.remote_entries.get_mut(&id) {
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traces.erase(*id, router, rank, self_destination, routing_table);
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self.remote_entries.remove(&id);
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}
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self.entries.remove(&(self_destination, *id));
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}
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self.name_map.clear();
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}
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// API for both incoming DDMA (drtio) and subkernel
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pub fn playback(&mut self, source: u8, id: u32, timestamp: u64) -> Result<(), Error> {
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if self.state != ManagerState::Idle {
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return Err(Error::PlaybackInProgress);
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}
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let entry = match self.entries.get(&(source, id)){
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Some(entry) => entry,
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None => { return Err(Error::IdNotFound); }
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};
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if !entry.complete {
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return Err(Error::EntryNotComplete);
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}
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let ptr = entry.trace[entry.padding_len..].as_ptr();
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assert!(ptr as u32 % 64 == 0);
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self.state = ManagerState::Playback;
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self.current_id = id;
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self.current_source = source;
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self.previous_cri_master = cricon_read();
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unsafe {
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csr::rtio_dma::base_address_write(ptr as u64);
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csr::rtio_dma::time_offset_write(timestamp as u64);
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cricon_select(RtioMaster::Dma);
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csr::rtio_dma::enable_write(1);
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// playback has begun here, for status call check_state
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}
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Ok(())
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}
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pub fn get_status(&mut self) -> Option<RtioStatus> {
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if self.state != ManagerState::Playback {
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// nothing to report
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return None;
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}
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let dma_enable = unsafe { csr::rtio_dma::enable_read() };
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if dma_enable != 0 {
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return None;
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} else {
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self.state = ManagerState::Idle;
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unsafe {
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cricon_select(self.previous_cri_master);
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let error = csr::rtio_dma::error_read();
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let channel = csr::rtio_dma::error_channel_read();
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let timestamp = csr::rtio_dma::error_timestamp_read();
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if error != 0 {
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csr::rtio_dma::error_write(1);
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}
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return Some(RtioStatus {
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source: self.current_source,
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id: self.current_id,
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error: error,
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channel: channel,
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timestamp: timestamp });
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}
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}
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}
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pub fn running(&self) -> bool {
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self.state == ManagerState::Playback
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}
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} |