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zynq-rs/experiments/src/main.rs

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#![no_std]
#![no_main]
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extern crate alloc;
use alloc::{borrow::ToOwned, collections::BTreeMap, format};
use core::task::Poll;
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use libasync::{
delay,
smoltcp::{Sockets, TcpStream},
task,
};
use libboard_zynq::{
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self as zynq,
clocks::source::{ArmPll, ClockSource, IoPll},
clocks::Clocks,
print, println,
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sdio::sd_card::SdCard,
smoltcp::{
self,
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iface::{EthernetInterfaceBuilder, NeighborCache, Routes},
time::Instant,
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wire::{EthernetAddress, IpAddress, IpCidr},
},
time::Milliseconds,
};
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#[cfg(feature = "target_zc706")]
use libboard_zynq::ps7_init;
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use libcortex_a9::{
mutex::Mutex,
sync_channel::{self, sync_channel},
};
use libregister::RegisterR;
use libsupport_zynq::{
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boot, ram,
};
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use log::{info, warn};
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const HWADDR: [u8; 6] = [0, 0x23, 0xde, 0xea, 0xbe, 0xef];
#[no_mangle]
pub fn main_core0() {
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// zynq::clocks::CpuClocks::enable_io(1_250_000_000);
println!("\nzc706 main");
// ps7_init::apply();
libboard_zynq::stdio::drop_uart();
libboard_zynq::logger::init().unwrap();
log::set_max_level(log::LevelFilter::Trace);
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info!(
"Boot mode: {:?}",
zynq::slcr::RegisterBlock::new()
.boot_mode
.read()
.boot_mode_pins()
);
#[cfg(feature = "target_zc706")]
const CPU_FREQ: u32 = 800_000_000;
#[cfg(feature = "target_cora_z7_10")]
const CPU_FREQ: u32 = 650_000_000;
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info!("Setup clock sources...");
ArmPll::setup(2 * CPU_FREQ);
Clocks::set_cpu_freq(CPU_FREQ);
#[cfg(feature = "target_zc706")]
{
IoPll::setup(1_000_000_000);
libboard_zynq::stdio::drop_uart();
}
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#[cfg(feature = "target_cora_z7_10")]
{
IoPll::setup(1_000_000_000);
libboard_zynq::stdio::drop_uart();
}
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info!("PLLs set up");
let clocks = zynq::clocks::Clocks::get();
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info!(
"CPU Clocks: {}/{}/{}/{}",
clocks.cpu_6x4x(),
clocks.cpu_3x2x(),
clocks.cpu_2x(),
clocks.cpu_1x()
);
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let sd = libboard_zynq::sdio::SDIO::sdio0(true);
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// only test SD card if it is inserted
if sd.is_card_inserted() {
let result = SdCard::from_sdio(sd);
match &result {
Ok(_) => info!("OK!"),
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Err(a) => info!("{}", a),
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};
const SIZE: usize = 512 * 2 + 1;
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let mut sd_card = result.unwrap();
if false {
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let buffer: [u8; SIZE] = [5; SIZE];
sd_card.write_block(0x0, 2, &buffer).unwrap();
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}
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let mut buffer: [u8; SIZE] = [0; SIZE];
sd_card.read_block(0 /*0x1*/, 2, &mut buffer[1..]).unwrap();
info!("buffer = {:?}", &buffer[..]);
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}
let mut flash = zynq::flash::Flash::new(200_000_000).linear_addressing_mode();
let flash_ram: &[u8] = unsafe { core::slice::from_raw_parts(flash.ptr(), flash.size()) };
for i in 0..=1 {
print!("Flash {}:", i);
for b in &flash_ram[(i * 16 * 1024 * 1024)..][..128] {
print!(" {:02X}", *b);
}
println!("");
}
let mut flash = flash.stop();
let timer = libboard_zynq::timer::GlobalTimer::start();
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let mut ddr = zynq::ddr::DdrRam::new();
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#[cfg(not(feature = "target_zc706"))]
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ddr.memtest();
ram::init_alloc_ddr(&mut ddr);
#[cfg(dev)]
for i in 0..=1 {
let mut flash_io = flash.manual_mode(i);
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// println!("rdcr={:02X}", flash_io.rdcr());
print!("Flash {} ID:", i);
for b in flash_io.rdid() {
print!(" {:02X}", b);
}
println!("");
print!("Flash {} I/O:", i);
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for o in 0..8 {
const CHUNK: u32 = 8;
for b in flash_io.read(CHUNK * o, CHUNK as usize) {
print!(" {:02X}", b);
}
}
println!("");
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flash_io.dump("Read cr1", 0x35);
flash_io.dump("Read Autoboot", 0x14);
flash_io.dump("Read Bank", 0x16);
flash_io.dump("DLP Bank", 0x16);
flash_io.dump("Read ESig", 0xAB);
flash_io.dump("OTP Read", 0x4B);
flash_io.dump("DYB Read", 0xE0);
flash_io.dump("PPB Read", 0xE2);
flash_io.dump("ASP Read", 0x2B);
flash_io.dump("Password Read", 0xE7);
flash_io.write_enabled(|flash_io| {
flash_io.erase(0);
});
flash_io.write_enabled(|flash_io| {
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flash_io.program(0, [0x23054223; 0x100 >> 2].iter().cloned());
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});
flash = flash_io.stop();
}
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let core1 = boot::Core1::start(false);
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let (mut core1_req, rx) = sync_channel(10);
*CORE1_REQ.lock() = Some(rx);
let (tx, mut core1_res) = sync_channel(10);
*CORE1_RES.lock() = Some(tx);
task::block_on(async {
for i in 0..10 {
core1_req.async_send(i).await;
let j = core1_res.async_recv().await;
println!("{} -> {}", i, j);
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}
});
core1.disable();
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let eth = zynq::eth::Eth::default(HWADDR.clone());
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println!("Eth on");
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const RX_LEN: usize = 4096;
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// Number of transmission buffers (minimum is two because with
// one, duplicate packet transmission occurs)
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const TX_LEN: usize = 4096;
let eth = eth.start_rx(RX_LEN);
let mut eth = eth.start_tx(TX_LEN);
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let ethernet_addr = EthernetAddress(HWADDR);
// IP stack
let local_addr = IpAddress::v4(192, 168, 1, 51);
let mut ip_addrs = [IpCidr::new(local_addr, 24)];
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let routes = Routes::new(BTreeMap::new());
let neighbor_cache = NeighborCache::new(BTreeMap::new());
let mut iface = EthernetInterfaceBuilder::new(&mut eth)
.ethernet_addr(ethernet_addr)
.ip_addrs(&mut ip_addrs[..])
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.routes(routes)
.neighbor_cache(neighbor_cache)
.finalize();
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#[cfg(feature = "target_zc706")]
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ps7_init::report_differences();
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Sockets::init(32);
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/// `chargen`
const TCP_PORT: u16 = 19;
async fn handle_connection(stream: TcpStream) -> smoltcp::Result<()> {
stream.send("Enter your name: ".bytes()).await?;
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let name = stream
.recv(|buf| {
for (i, b) in buf.iter().enumerate() {
if *b == '\n' as u8 {
return match core::str::from_utf8(&buf[0..i]) {
Ok(name) => Poll::Ready((i + 1, Some(name.to_owned()))),
Err(_) => Poll::Ready((i + 1, None)),
};
}
}
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if buf.len() > 100 {
// Too much input, consume all
Poll::Ready((buf.len(), None))
} else {
Poll::Pending
}
})
.await?;
match name {
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Some(name) => stream.send(format!("Hello {}!\n", name).bytes()).await?,
None => {
stream
.send("I had trouble reading your name.\n".bytes())
.await?
}
}
let _ = stream.close().await;
Ok(())
}
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// (rx, tx)
let stats = alloc::rc::Rc::new(core::cell::RefCell::new((0, 0)));
let stats_tx = stats.clone();
task::spawn(async move {
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while let Ok(stream) = TcpStream::accept(TCP_PORT, 0x10_0000, 0x10_0000).await {
let stats_tx = stats_tx.clone();
task::spawn(async move {
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let tx_data = (0..=255).take(4096).collect::<alloc::vec::Vec<u8>>();
loop {
// const CHUNK_SIZE: usize = 65536;
// match stream.send((0..=255).cycle().take(CHUNK_SIZE)).await {
match stream.send_slice(&tx_data[..]).await {
Ok(len) => stats_tx.borrow_mut().1 += tx_data.len(), //CHUNK_SIZE,
Err(e) => {
warn!("tx: {:?}", e);
break
}
}
}
});
}
});
let stats_rx = stats.clone();
task::spawn(async move {
while let Ok(stream) = TcpStream::accept(TCP_PORT+1, 0x10_0000, 0x10_0000).await {
let stats_rx = stats_rx.clone();
task::spawn(async move {
loop {
match stream.recv(|buf| Poll::Ready((buf.len(), buf.len()))).await {
Ok(len) => stats_rx.borrow_mut().0 += len,
Err(e) => {
warn!("rx: {:?}", e);
break
}
}
}
});
}
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});
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let mut countdown = timer.countdown();
task::spawn(async move {
loop {
delay(&mut countdown, Milliseconds(1000)).await;
let timestamp = timer.get_us();
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let seconds = timestamp / 1_000_000;
let micros = timestamp % 1_000_000;
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let (rx, tx) = {
let mut stats = stats.borrow_mut();
let result = *stats;
*stats = (0, 0);
result
};
info!("time: {:6}.{:06}s, rx: {}k/s, tx: {}k/s", seconds, micros, rx / 1024, tx / 1024);
}
});
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Sockets::run(&mut iface, || {
Instant::from_millis(timer.get_time().0 as i64)
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})
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}
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static CORE1_REQ: Mutex<Option<sync_channel::Receiver<usize>>> = Mutex::new(None);
static CORE1_RES: Mutex<Option<sync_channel::Sender<usize>>> = Mutex::new(None);
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static DONE: Mutex<bool> = Mutex::new(false);
#[no_mangle]
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pub fn main_core1() {
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println!("Hello from core1!");
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let mut req = None;
while req.is_none() {
req = CORE1_REQ.lock().take();
}
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let req = req.unwrap();
let mut res = None;
while res.is_none() {
res = CORE1_RES.lock().take();
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}
let mut res = res.unwrap();
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for i in req {
res.send(*i * *i);
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}
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println!("core1 done!");
*DONE.lock() = true;
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loop {}
}