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Author SHA1 Message Date
4158906122 eth: collect some stats 2020-07-30 19:19:43 +02:00
29 changed files with 222 additions and 1248 deletions

6
Cargo.lock generated
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@ -98,13 +98,13 @@ dependencies = [
"libboard_zynq 0.0.0", "libboard_zynq 0.0.0",
"libcortex_a9 0.0.0", "libcortex_a9 0.0.0",
"libregister 0.0.0", "libregister 0.0.0",
"linked_list_allocator 0.8.4 (registry+https://github.com/rust-lang/crates.io-index)", "linked_list_allocator 0.8.3 (registry+https://github.com/rust-lang/crates.io-index)",
"r0 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)", "r0 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
] ]
[[package]] [[package]]
name = "linked_list_allocator" name = "linked_list_allocator"
version = "0.8.4" version = "0.8.3"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
[[package]] [[package]]
@ -170,7 +170,7 @@ dependencies = [
"checksum cfg-if 0.1.10 (registry+https://github.com/rust-lang/crates.io-index)" = "4785bdd1c96b2a846b2bd7cc02e86b6b3dbf14e7e53446c4f54c92a361040822" "checksum cfg-if 0.1.10 (registry+https://github.com/rust-lang/crates.io-index)" = "4785bdd1c96b2a846b2bd7cc02e86b6b3dbf14e7e53446c4f54c92a361040822"
"checksum compiler_builtins 0.1.27 (registry+https://github.com/rust-lang/crates.io-index)" = "38f18416546abfbf8d801c555a0e99524453e7214f9cc9107ad49de3d5948ccc" "checksum compiler_builtins 0.1.27 (registry+https://github.com/rust-lang/crates.io-index)" = "38f18416546abfbf8d801c555a0e99524453e7214f9cc9107ad49de3d5948ccc"
"checksum embedded-hal 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "ee4908a155094da7723c2d60d617b820061e3b4efcc3d9e293d206a5a76c170b" "checksum embedded-hal 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "ee4908a155094da7723c2d60d617b820061e3b4efcc3d9e293d206a5a76c170b"
"checksum linked_list_allocator 0.8.4 (registry+https://github.com/rust-lang/crates.io-index)" = "e70e46c13c0e8374c26cec5752e3347ca1087d9711de8f45aa513a7700efd73d" "checksum linked_list_allocator 0.8.3 (registry+https://github.com/rust-lang/crates.io-index)" = "d6b60501dd4c850950bb43f970d544f6ce04e0ca021da2db2538fbe9d923f19e"
"checksum log 0.4.8 (registry+https://github.com/rust-lang/crates.io-index)" = "14b6052be84e6b71ab17edffc2eeabf5c2c3ae1fdb464aae35ac50c67a44e1f7" "checksum log 0.4.8 (registry+https://github.com/rust-lang/crates.io-index)" = "14b6052be84e6b71ab17edffc2eeabf5c2c3ae1fdb464aae35ac50c67a44e1f7"
"checksum managed 0.7.1 (registry+https://github.com/rust-lang/crates.io-index)" = "fdcec5e97041c7f0f1c5b7d93f12e57293c831c646f4cc7a5db59460c7ea8de6" "checksum managed 0.7.1 (registry+https://github.com/rust-lang/crates.io-index)" = "fdcec5e97041c7f0f1c5b7d93f12e57293c831c646f4cc7a5db59460c7ea8de6"
"checksum nb 0.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "b1411551beb3c11dedfb0a90a0fa256b47d28b9ec2cdff34c25a2fa59e45dbdc" "checksum nb 0.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "b1411551beb3c11dedfb0a90a0fa256b47d28b9ec2cdff34c25a2fa59e45dbdc"

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@ -1,7 +1,7 @@
# Build # Build
```shell ```shell
nix-shell --command "cargo xbuild --release -p experiments" nix-shell --command "cargo xbuild --release"
``` ```
Currently the ELF output is placed at `target/armv7-none-eabihf/release/experiments` Currently the ELF output is placed at `target/armv7-none-eabihf/release/experiments`
@ -41,7 +41,7 @@ Proceed using gdb with `load`, `c`
### Running on the ZC706 ### Running on the ZC706
```shell ```shell
nix-shell --command "cargo xbuild --release -p experiments" nix-shell --command "cargo xbuild --release"
cd openocd cd openocd
openocd -f zc706.cfg openocd -f zc706.cfg
``` ```
@ -64,19 +64,16 @@ openocd -f zc706.cfg -c "pld load 0 blinker_migen.bit; exit"
Clone this repo onto your development/build machine and the raspberry pi that controls the Xilinx 7000 board Clone this repo onto your development/build machine and the raspberry pi that controls the Xilinx 7000 board
On the dev machine, the below script builds zc706 and secure copies it to the target pi (in your pi $HOME directory): On the dev machine, the below script builds zc706 and secure copies it to the target pi (in your pi $HOME directory)
```shell ```shell
cd ~/zynq-rs cd ~/zc706
./build.sh $your_user_or_ssh_id ./build.sh $your_user/ssh_id
``` ```
On the pi, we need an information rich environment that includes a relatively reliable `gdb` experience (that includes `ctrl-p` and `ctrl-n` command history that persists across `cgdb` executions), run: On the pi, we need an information rich environment that includes a relatively reliable `gdb` experience (that includes `ctrl-p` and `ctrl-n` command history that persists across `cgdb` executions), run:
```shell ```shell
ssh pi4 ssh pi4
cd zynq-rs cd zc706
# For ZC706, run:
./tmux.sh 0
# For Cora Z7, run:
./tmux.sh ./tmux.sh
``` ```

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@ -1 +1 @@
nix-shell --command "cargo xbuild --release -p experiments" && scp -C target/armv7-none-eabihf/release/experiments $1@rpi-4.m-labs.hk:/home/$1/zc706/zc706.elf nix-shell --command "cargo xbuild --release" && scp -P 2204 -C target/armv7-none-eabihf/release/zc706-experiments $1@nixbld.m-labs.hk:/home/$1/zc706/zc706.elf

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@ -49,7 +49,7 @@ let
name = "${crate}"; name = "${crate}";
src = ./.; src = ./.;
crateSubdir = crate; crateSubdir = crate;
cargoSha256 = "1c1qpg9by8bg93yhgllb5xs155g27qmh99pbrb681wazm8k7nwim"; cargoSha256 = "0xlynsr94dyv0g41qwk5490w3wnzd5g70msaih6mcbgr3v4s2q34";
cargoFeatures = features; cargoFeatures = features;
doCheck = false; doCheck = false;
dontFixup = true; dontFixup = true;

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@ -16,5 +16,5 @@ embedded-hal = "0.2"
libregister = { path = "../libregister" } libregister = { path = "../libregister" }
libcortex_a9 = { path = "../libcortex_a9" } libcortex_a9 = { path = "../libcortex_a9" }
libboard_zynq = { path = "../libboard_zynq" } libboard_zynq = { path = "../libboard_zynq" }
libsupport_zynq = { path = "../libsupport_zynq", default-features = false, features = ["panic_handler"]} libsupport_zynq = { path = "../libsupport_zynq" }
libasync = { path = "../libasync" } libasync = { path = "../libasync" }

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@ -32,23 +32,19 @@ SECTIONS
*(.bss .bss.*); *(.bss .bss.*);
. = ALIGN(4); . = ALIGN(4);
__bss_end = .; __bss_end = .;
} > OCM3 } > OCM
.stack1 (NOLOAD) : ALIGN(8) { .stack1 (NOLOAD) : ALIGN(8) {
__stack1_end = .; __stack1_end = .;
. += 0x200; . += 0x200;
__stack1_start = .; __stack1_start = .;
} > OCM3 } > OCM
.stack0 (NOLOAD) : ALIGN(8) { .stack0 (NOLOAD) : ALIGN(8) {
__stack0_end = .; __stack0_end = .;
. = ORIGIN(OCM3) + LENGTH(OCM3) - 8; . = ORIGIN(OCM) + LENGTH(OCM) - 8;
__stack0_start = .; __stack0_start = .;
} > OCM
/* unused heap0 to prevent the linker from complaining*/
__heap0_start = .;
__heap0_end = .;
} > OCM3
/DISCARD/ : /DISCARD/ :
{ {

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@ -1,7 +1,6 @@
#![no_std] #![no_std]
#![no_main] #![no_main]
#![feature(const_in_array_repeat_expressions)] #![feature(const_in_array_repeat_expressions)]
#![feature(naked_functions)]
extern crate alloc; extern crate alloc;
@ -15,9 +14,8 @@ use libboard_zynq::{
self as zynq, self as zynq,
clocks::source::{ArmPll, ClockSource, IoPll}, clocks::source::{ArmPll, ClockSource, IoPll},
clocks::Clocks, clocks::Clocks,
print, println, stdio, print, println,
mpcore, sdio::sd_card::SdCard,
gic,
smoltcp::{ smoltcp::{
iface::{EthernetInterfaceBuilder, NeighborCache, Routes}, iface::{EthernetInterfaceBuilder, NeighborCache, Routes},
time::Instant, time::Instant,
@ -25,70 +23,24 @@ use libboard_zynq::{
}, },
time::Milliseconds, time::Milliseconds,
}; };
#[cfg(feature = "target_zc706")]
use libboard_zynq::ps7_init;
use libcortex_a9::{ use libcortex_a9::{
mutex::Mutex, mutex::Mutex,
sync_channel::{Sender, Receiver},
sync_channel, sync_channel,
regs::{MPIDR, SP},
spin_lock_yield, notify_spin_lock,
asm
}; };
use libregister::{RegisterR, RegisterW}; use libregister::RegisterR;
use libsupport_zynq::{ use libsupport_zynq::{
boot, ram, boot, ram,
}; };
use log::{info, warn}; use log::{info, warn};
use core::sync::atomic::{AtomicBool, Ordering};
const HWADDR: [u8; 6] = [0, 0x23, 0xde, 0xea, 0xbe, 0xef]; const HWADDR: [u8; 6] = [0, 0x23, 0xde, 0xea, 0xbe, 0xef];
static mut CORE1_REQ: (Sender<usize>, Receiver<usize>) = sync_channel!(usize, 10);
static mut CORE1_RES: (Sender<usize>, Receiver<usize>) = sync_channel!(usize, 10);
extern "C" {
static mut __stack1_start: u32;
}
static CORE1_RESTART: AtomicBool = AtomicBool::new(false);
#[link_section = ".text.boot"]
#[no_mangle]
#[naked]
pub unsafe extern "C" fn IRQ() {
if MPIDR.read().cpu_id() == 1{
let mpcore = mpcore::RegisterBlock::new();
let mut gic = gic::InterruptController::new(mpcore);
let id = gic.get_interrupt_id();
if id.0 == 0 {
gic.end_interrupt(id);
asm::exit_irq();
SP.write(&mut __stack1_start as *mut _ as u32);
asm::enable_irq();
CORE1_RESTART.store(false, Ordering::Relaxed);
notify_spin_lock();
main_core1();
}
}
stdio::drop_uart();
println!("IRQ");
loop {}
}
pub fn restart_core1() {
let mut interrupt_controller = gic::InterruptController::new(mpcore::RegisterBlock::new());
CORE1_RESTART.store(true, Ordering::Relaxed);
interrupt_controller.send_sgi(gic::InterruptId(0), gic::CPUCore::Core1.into());
while CORE1_RESTART.load(Ordering::Relaxed) {
spin_lock_yield();
}
}
#[no_mangle] #[no_mangle]
pub fn main_core0() { pub fn main_core0() {
// zynq::clocks::CpuClocks::enable_io(1_250_000_000); // zynq::clocks::CpuClocks::enable_io(1_250_000_000);
println!("\nzc706 main"); println!("\nzc706 main");
let mut interrupt_controller = gic::InterruptController::new(mpcore::RegisterBlock::new());
interrupt_controller.enable_interrupts();
// ps7_init::apply(); // ps7_init::apply();
libboard_zynq::stdio::drop_uart(); libboard_zynq::stdio::drop_uart();
@ -131,6 +83,26 @@ pub fn main_core0() {
clocks.cpu_1x() clocks.cpu_1x()
); );
// commented out due to OCM full
// let sd = libboard_zynq::sdio::SDIO::sdio0(true);
// // only test SD card if it is inserted
// if sd.is_card_inserted() {
// let result = SdCard::from_sdio(sd);
// match &result {
// Ok(_) => info!("OK!"),
// Err(a) => info!("{}", a),
// };
// const SIZE: usize = 512 * 2 + 1;
// let mut sd_card = result.unwrap();
// if false {
// let buffer: [u8; SIZE] = [5; SIZE];
// sd_card.write_block(0x0, 2, &buffer).unwrap();
// }
// let mut buffer: [u8; SIZE] = [0; SIZE];
// sd_card.read_block(0 /*0x1*/, 2, &mut buffer[1..]).unwrap();
// info!("buffer = {:?}", &buffer[..]);
// }
let mut flash = zynq::flash::Flash::new(200_000_000).linear_addressing_mode(); 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()) }; let flash_ram: &[u8] = unsafe { core::slice::from_raw_parts(flash.ptr(), flash.size()) };
for i in 0..=1 { for i in 0..=1 {
@ -188,68 +160,36 @@ pub fn main_core0() {
flash = flash_io.stop(); flash = flash_io.stop();
} }
boot::Core1::start(false); if false {
let core1 = boot::Core1::start(false);
let core1_req = unsafe { &mut CORE1_REQ.0 }; let (mut core1_req, rx) = sync_channel!(usize, 10);
let core1_res = unsafe { &mut CORE1_RES.1 }; *CORE1_REQ.lock() = Some(rx);
let (tx, mut core1_res) = sync_channel!(usize, 10);
*CORE1_RES.lock() = Some(tx);
task::block_on(async { task::block_on(async {
for i in 0..10 { for i in 0..10 {
restart_core1();
core1_req.async_send(i).await; core1_req.async_send(i).await;
let j = core1_res.async_recv().await; let j = core1_res.async_recv().await;
println!("{} -> {}", i, j); println!("{} -> {}", i, j);
} }
}); });
unsafe { core1.disable();
core1_req.drop_elements();
}
// Test I2C
#[cfg(feature = "target_zc706")]
{
let mut i2c = zynq::i2c::I2C::i2c();
i2c.init();
println!("I2C bit-banging enabled");
let mut eeprom = zynq::i2c::eeprom::EEPROM::new(&mut i2c, 16);
// Write to 0x00 and 0x08
let eeprom_buffer: [u8; 22] = [
0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb,
0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee,
0xef, 0xcd, 0xab, 0x89, 0x67, 0x45, 0x23, 0x01,
];
eeprom.write(0x00, &eeprom_buffer[0..6]);
eeprom.write(0x08, &eeprom_buffer[6..22]);
println!("Data written to EEPROM");
let mut eeprom_buffer = [0u8; 24];
// Read from 0x00
eeprom.read(0x00, &mut eeprom_buffer);
print!("Data read from EEPROM @ 0x00: (hex) ");
for i in 0..6 {
print!("{:02x} ", eeprom_buffer[i]);
}
println!("");
// Read from 0x08
eeprom.read(0x08, &mut eeprom_buffer);
print!("Data read from EEPROM @ 0x08: (hex) ");
for i in 0..16 {
print!("{:02x} ", eeprom_buffer[i]);
}
println!("");
} }
let eth = zynq::eth::Eth::default(HWADDR.clone()); let eth = zynq::eth::Eth::default(HWADDR.clone());
println!("Eth on"); println!("Eth on");
const RX_LEN: usize = 4096; const RX_LEN: usize = 8192;
// Number of transmission buffers (minimum is two because with // Number of transmission buffers (minimum is two because with
// one, duplicate packet transmission occurs) // one, duplicate packet transmission occurs)
const TX_LEN: usize = 4096; const TX_LEN: usize = 8192;
let eth = eth.start_rx(RX_LEN); let eth = eth.start_rx(RX_LEN);
let mut eth = eth.start_tx(TX_LEN); let mut eth = eth.start_tx(TX_LEN);
let ethernet_addr = EthernetAddress(HWADDR); let ethernet_addr = EthernetAddress(HWADDR);
// IP stack // IP stack
let local_addr = IpAddress::v4(192, 168, 1, 51); let local_addr = IpAddress::v4(192, 168, 1, 54);
let mut ip_addrs = [IpCidr::new(local_addr, 24)]; let mut ip_addrs = [IpCidr::new(local_addr, 24)];
let routes = Routes::new(BTreeMap::new()); let routes = Routes::new(BTreeMap::new());
let neighbor_cache = NeighborCache::new(BTreeMap::new()); let neighbor_cache = NeighborCache::new(BTreeMap::new());
@ -260,6 +200,9 @@ pub fn main_core0() {
.neighbor_cache(neighbor_cache) .neighbor_cache(neighbor_cache)
.finalize(); .finalize();
#[cfg(feature = "target_zc706")]
ps7_init::report_differences();
Sockets::init(32); Sockets::init(32);
const TCP_PORT: u16 = 19; const TCP_PORT: u16 = 19;
@ -287,7 +230,7 @@ pub fn main_core0() {
}); });
let stats_rx = stats.clone(); let stats_rx = stats.clone();
task::spawn(async move { task::spawn(async move {
while let Ok(stream) = TcpStream::accept(TCP_PORT+1, 0x10_0000, 0x10_0000).await { while let Ok(stream) = TcpStream::accept(TCP_PORT+1, 4096, 4096).await {
let stats_rx = stats_rx.clone(); let stats_rx = stats_rx.clone();
task::spawn(async move { task::spawn(async move {
loop { loop {
@ -321,20 +264,38 @@ pub fn main_core0() {
} }
}); });
Sockets::run(&mut iface, || { let mut last_stats_time = 0;
Sockets::run(&mut iface, |iface| {
let t = timer.get_time().0;
if t - last_stats_time >= 1000 {
let stats = &mut iface.device_mut().stats;
info!("eth stats: {:?}", stats);
stats.reset();
last_stats_time = t;
}
Instant::from_millis(timer.get_time().0 as i64) Instant::from_millis(timer.get_time().0 as i64)
}) })
} }
static CORE1_REQ: Mutex<Option<sync_channel::Receiver<usize>>> = Mutex::new(None);
static CORE1_RES: Mutex<Option<sync_channel::Sender<usize>>> = Mutex::new(None);
static DONE: Mutex<bool> = Mutex::new(false); static DONE: Mutex<bool> = Mutex::new(false);
#[no_mangle] #[no_mangle]
pub fn main_core1() { pub fn main_core1() {
println!("Hello from core1!"); println!("Hello from core1!");
let mut interrupt_controller = gic::InterruptController::new(mpcore::RegisterBlock::new());
interrupt_controller.enable_interrupts(); let mut req = None;
let req = unsafe { &mut CORE1_REQ.1 }; while req.is_none() {
let res = unsafe { &mut CORE1_RES.0 }; req = CORE1_REQ.lock().take();
}
let req = req.unwrap();
let mut res = None;
while res.is_none() {
res = CORE1_RES.lock().take();
}
let mut res = res.unwrap();
for i in req { for i in req {
res.send(i * i); res.send(i * i);

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@ -43,11 +43,11 @@ impl Sockets {
/// iface /// iface
pub fn run<'b, 'c, 'e, D: for<'d> Device<'d>>( pub fn run<'b, 'c, 'e, D: for<'d> Device<'d>>(
iface: &mut EthernetInterface<'b, 'c, 'e, D>, iface: &mut EthernetInterface<'b, 'c, 'e, D>,
mut get_time: impl FnMut() -> Instant, mut get_time: impl FnMut(&mut EthernetInterface<'b, 'c, 'e, D>) -> Instant,
) -> ! { ) -> ! {
task::block_on(async { task::block_on(async {
loop { loop {
let instant = get_time(); let instant = get_time(iface);
Self::instance().poll(iface, instant); Self::instance().poll(iface, instant);
task::r#yield().await; task::r#yield().await;
} }

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@ -2,7 +2,7 @@ use core::{
marker::PhantomData, marker::PhantomData,
ops::{Deref, DerefMut}, ops::{Deref, DerefMut},
}; };
use log::{debug, info, warn, error}; use log::{error, info, warn};
use libregister::*; use libregister::*;
use super::slcr; use super::slcr;
use super::clocks::Clocks; use super::clocks::Clocks;
@ -132,7 +132,7 @@ fn calculate_tx_divisors(tx_clock: u32) -> (u8, u8) {
} }
} }
let result = best.unwrap(); let result = best.unwrap();
debug!("Eth TX clock for {}: {} / {} / {} = {}", info!("Eth TX clock for {}: {} / {} / {} = {}",
tx_clock, io_pll, tx_clock, io_pll,
result.0, result.1, result.0, result.1,
io_pll / result.0 as u32 / result.1 as u32 io_pll / result.0 as u32 / result.1 as u32
@ -140,11 +140,43 @@ fn calculate_tx_divisors(tx_clock: u32) -> (u8, u8) {
result result
} }
#[derive(Debug)]
pub struct EthStats {
frame_recd: usize,
no_frame_recd: usize,
rx_idle: usize,
tx_send: usize,
tx_overflow: usize,
}
impl EthStats {
pub fn new() -> Self {
EthStats {
frame_recd: 0,
no_frame_recd: 0,
rx_idle: 0,
tx_send: 0,
tx_overflow: 0,
}
}
pub fn reset(&mut self) {
*self = EthStats {
frame_recd: 0,
no_frame_recd: 0,
rx_idle: 0,
tx_send: 0,
tx_overflow: 0,
};
}
}
pub struct Eth<GEM: Gem, RX, TX> { pub struct Eth<GEM: Gem, RX, TX> {
rx: RX, rx: RX,
tx: TX, tx: TX,
inner: EthInner<GEM>, inner: EthInner<GEM>,
phy: Phy, phy: Phy,
pub stats: EthStats,
} }
impl Eth<Gem0, (), ()> { impl Eth<Gem0, (), ()> {
@ -303,6 +335,7 @@ impl<GEM: Gem> Eth<GEM, (), ()> {
inner.configure(macaddr); inner.configure(macaddr);
let phy = Phy::find(&mut inner).expect("phy"); let phy = Phy::find(&mut inner).expect("phy");
info!("Eth: found PHY {}", phy.name());
phy.reset(&mut inner); phy.reset(&mut inner);
phy.restart_autoneg(&mut inner); phy.restart_autoneg(&mut inner);
@ -311,6 +344,7 @@ impl<GEM: Gem> Eth<GEM, (), ()> {
tx: (), tx: (),
inner, inner,
phy, phy,
stats: EthStats::new(),
} }
} }
} }
@ -322,6 +356,7 @@ impl<GEM: Gem, RX, TX> Eth<GEM, RX, TX> {
tx: self.tx, tx: self.tx,
inner: self.inner, inner: self.inner,
phy: self.phy, phy: self.phy,
stats: self.stats,
}; };
let list_addr = new_self.rx.list_addr(); let list_addr = new_self.rx.list_addr();
assert!(list_addr & 0b11 == 0); assert!(list_addr & 0b11 == 0);
@ -341,6 +376,7 @@ impl<GEM: Gem, RX, TX> Eth<GEM, RX, TX> {
tx: tx::DescList::new(tx_size), tx: tx::DescList::new(tx_size),
inner: self.inner, inner: self.inner,
phy: self.phy, phy: self.phy,
stats: self.stats,
}; };
let list_addr = &new_self.tx.list_addr(); let list_addr = &new_self.tx.list_addr();
assert!(list_addr & 0b11 == 0); assert!(list_addr & 0b11 == 0);
@ -387,16 +423,19 @@ impl<GEM: Gem, TX> Eth<GEM, rx::DescList, TX> {
let result = self.rx.recv_next(); let result = self.rx.recv_next();
match result { match result {
Ok(None) => { Ok(None) => {
self.stats.no_frame_recd += 1;
// No packet, clear status bit // No packet, clear status bit
GEM::regs().rx_status.write( GEM::regs().rx_status.write(
regs::RxStatus::zeroed() regs::RxStatus::zeroed()
.frame_recd(true) .frame_recd(true)
); );
} }
Ok(Some(_)) => self.stats.frame_recd += 1,
_ => {} _ => {}
} }
result result
} else { } else {
self.stats.rx_idle += 1;
self.inner.check_link_change(&self.phy); self.inner.check_link_change(&self.phy);
Ok(None) Ok(None)
} }
@ -405,7 +444,13 @@ impl<GEM: Gem, TX> Eth<GEM, rx::DescList, TX> {
impl<GEM: Gem, RX> Eth<GEM, RX, tx::DescList> { impl<GEM: Gem, RX> Eth<GEM, RX, tx::DescList> {
pub fn send<'s: 'p, 'p>(&'s mut self, length: usize) -> Option<tx::PktRef<'p>> { pub fn send<'s: 'p, 'p>(&'s mut self, length: usize) -> Option<tx::PktRef<'p>> {
self.tx.send(GEM::regs(), length) let result = self.tx.send(GEM::regs(), length);
if result.is_some() {
self.stats.tx_send += 1;
} else {
self.stats.tx_overflow += 1;
}
result
} }
} }
@ -432,6 +477,7 @@ impl<'a, GEM: Gem> smoltcp::phy::Device<'a> for &mut Eth<GEM, rx::DescList, tx::
fn receive(&'a mut self) -> Option<(Self::RxToken, Self::TxToken)> { fn receive(&'a mut self) -> Option<(Self::RxToken, Self::TxToken)> {
match self.rx.recv_next() { match self.rx.recv_next() {
Ok(Some(pktref)) => { Ok(Some(pktref)) => {
self.stats.frame_recd += 1;
let tx_token = tx::Token { let tx_token = tx::Token {
regs: GEM::regs(), regs: GEM::regs(),
desc_list: &mut self.tx, desc_list: &mut self.tx,
@ -439,6 +485,7 @@ impl<'a, GEM: Gem> smoltcp::phy::Device<'a> for &mut Eth<GEM, rx::DescList, tx::
Some((pktref, tx_token)) Some((pktref, tx_token))
} }
Ok(None) => { Ok(None) => {
self.stats.rx_idle += 1;
self.inner.check_link_change(&self.phy); self.inner.check_link_change(&self.phy);
None None
} }

View File

@ -1,150 +0,0 @@
//! ARM Generic Interrupt Controller
use bit_field::BitField;
use libregister::{RegisterW, RegisterRW, RegisterR};
use super::mpcore;
#[derive(Debug, Clone, Copy)]
pub struct InterruptId(pub u8);
#[derive(Debug, Clone, Copy)]
#[repr(u8)]
pub enum CPUCore {
Core0 = 0b01,
Core1 = 0b10
}
#[derive(Debug, Clone, Copy)]
pub struct TargetCPU(u8);
impl TargetCPU {
pub const fn none() -> TargetCPU {
TargetCPU(0)
}
pub const fn and(self, other: TargetCPU) -> TargetCPU {
TargetCPU(self.0 | other.0)
}
}
impl From<CPUCore> for TargetCPU {
fn from(core: CPUCore) -> Self {
TargetCPU(core as u8)
}
}
pub enum TargetList {
CPUList(TargetCPU),
Others,
This
}
impl From<CPUCore> for TargetList {
fn from(core: CPUCore) -> Self {
TargetList::CPUList(TargetCPU(core as u8))
}
}
impl From<TargetCPU> for TargetList {
fn from(cpu: TargetCPU) -> Self {
TargetList::CPUList(cpu)
}
}
#[derive(Debug, Clone, Copy)]
pub enum InterruptSensitivity {
Level,
Edge,
}
pub struct InterruptController {
mpcore: &'static mut mpcore::RegisterBlock,
}
impl InterruptController {
pub fn new(mpcore: &'static mut mpcore::RegisterBlock) -> Self {
InterruptController { mpcore }
}
pub fn disable_interrupts(&mut self) {
self.mpcore.iccicr.modify(|_, w| w.enable_ns(false)
.enable_s(false));
// FIXME: Should we disable the distributor globally when we disable interrupt (for a single
// core)?
// self.mpcore.icddcr.modify(|_, w| w.enable_secure(false)
// .enable_non_secure(false));
}
/// enable interrupt signaling
pub fn enable_interrupts(&mut self) {
self.mpcore.iccicr.modify(|_, w| w.enable_ns(true)
.enable_s(true));
self.mpcore.icddcr.modify(|_, w| w.enable_secure(true));
// Enable all interrupts except those of the lowest priority.
self.mpcore.iccpmr.write(mpcore::ICCPMR::zeroed().priority(0xFF));
}
/// send software generated interrupt
pub fn send_sgi(&mut self, id: InterruptId, targets: TargetList) {
assert!(id.0 < 16);
self.mpcore.icdsgir.modify(|_, w| match targets {
TargetList::CPUList(list) => w.target_list_filter(0).cpu_target_list(list.0),
TargetList::Others => w.target_list_filter(0b01),
TargetList::This => w.target_list_filter(0b10)
}.sgiintid(id.0).satt(false));
}
/// enable the interrupt *for this core*.
/// Not needed for SGI.
pub fn enable(&mut self, id: InterruptId, target_cpu: CPUCore, sensitivity: InterruptSensitivity, priority: u8) {
// only 5 bits of the priority is useful
assert!(priority < 32);
self.disable_interrupts();
// enable
let m = (id.0 >> 5) as usize;
let n = (id.0 & 0x1F) as usize;
assert!(m < 3);
unsafe {
self.mpcore.icdiser[m].modify(|mut icdiser| *icdiser.set_bit(n, true));
}
// target cpu
let m = (id.0 >> 2) as usize;
let n = (8 * (id.0 & 3)) as usize;
unsafe {
self.mpcore.icdiptr[m].modify(|mut icdiptr| *icdiptr.set_bits(n..=n+1, target_cpu as u32 + 1));
}
// sensitivity
let m = (id.0 >> 4) as usize;
let n = (2 * (id.0 & 0xF)) as usize;
unsafe {
self.mpcore.icdicfr[m].modify(|mut icdicfr| *icdicfr.set_bits(n..=n+1, match sensitivity {
InterruptSensitivity::Level => 0b00,
InterruptSensitivity::Edge => 0b10,
}));
}
// priority
let offset = (id.0 % 4) * 8;
let priority: u32 = (priority as u32) << (offset + 3);
let mask: u32 = 0xFFFFFFFF ^ (0xFF << offset);
unsafe {
self.mpcore.icdipr[id.0 as usize / 4].modify(|v| (v & mask) | priority);
}
self.enable_interrupts();
}
pub fn end_interrupt(&mut self, id: InterruptId) {
self.mpcore.icceoir.modify(|_, w| w.eoiintid(id.0 as u32));
}
pub fn get_interrupt_id(&self) -> InterruptId {
InterruptId(self.mpcore.icciar.read().ackintid() as u8)
}
}

View File

@ -1,107 +0,0 @@
use super::I2C;
use crate::time::Milliseconds;
use embedded_hal::timer::CountDown;
pub struct EEPROM<'a> {
i2c: &'a mut I2C,
port: u8,
address: u8,
page_size: u8,
count_down: crate::timer::global::CountDown<Milliseconds>
}
impl<'a> EEPROM<'a> {
#[cfg(feature = "target_zc706")]
pub fn new(i2c: &'a mut I2C, page_size: u8) -> Self {
EEPROM {
i2c: i2c,
port: 2,
address: 0b1010100,
page_size: page_size,
count_down: unsafe { crate::timer::GlobalTimer::get() }.countdown()
}
}
#[cfg(feature = "target_zc706")]
fn select(&mut self) -> Result<(), &'static str> {
let mask: u16 = 1 << self.port;
self.i2c.pca9548_select(0b1110100, mask as u8)?;
Ok(())
}
/// Random read
pub fn read<'r>(&mut self, addr: u8, buf: &'r mut [u8]) -> Result<(), &'static str> {
self.select()?;
self.i2c.start()?;
self.i2c.write(self.address << 1)?;
self.i2c.write(addr)?;
self.i2c.restart()?;
self.i2c.write((self.address << 1) | 1)?;
let buf_len = buf.len();
for (i, byte) in buf.iter_mut().enumerate() {
*byte = self.i2c.read(i < buf_len - 1)?;
}
self.i2c.stop()?;
Ok(())
}
/// Smart multi-page writing
/// Using the "Page Write" function of an EEPROM, the memory region for each transaction
/// (i.e. from byte `addr` to byte `addr+buf.len()`) should fit under each page
/// (i.e. `addr+buf.len()` < `addr/self.page_size+1`); otherwise, a roll-oever occurs,
/// where bytes beyond the page end. This smart function takes care of the scenario to avoid
/// any roll-over when writing ambiguous memory regions.
pub fn write(&mut self, addr: u8, buf: &[u8]) -> Result<(), &'static str> {
self.select()?;
let buf_len = buf.len();
let mut pb: u8 = addr % self.page_size;
for (i, byte) in buf.iter().enumerate() {
if (i == 0) || (pb == 0) {
self.i2c.start()?;
self.i2c.write(self.address << 1)?;
self.i2c.write(addr + (i as u8))?;
}
self.i2c.write(*byte)?;
pb += 1;
if (i == buf_len-1) || (pb == self.page_size) {
self.i2c.stop()?;
self.poll(1_000)?;
pb = 0;
}
}
Ok(())
}
/// Poll
pub fn poll(&mut self, timeout_ms: u64) -> Result<(), &'static str> {
self.select()?;
self.count_down.start(Milliseconds(timeout_ms));
loop {
self.i2c.start()?;
let ack = self.i2c.write(self.address << 1)?;
self.i2c.stop()?;
if ack {
break
};
if !self.count_down.waiting() {
return Err("I2C polling timeout")
}
}
Ok(())
}
pub fn read_eui48<'r>(&mut self) -> Result<[u8; 6], &'static str> {
let mut buffer = [0u8; 6];
self.read(0xFA, &mut buffer)?;
Ok(buffer)
}
}

View File

@ -1,235 +0,0 @@
//! I2C Bit-banging Controller
mod regs;
pub mod eeprom;
use super::clocks::Clocks;
use super::slcr;
use super::time::Microseconds;
use embedded_hal::timer::CountDown;
use libregister::{RegisterR, RegisterRW, RegisterW};
const INVALID_BUS: &'static str = "Invalid I2C bus";
pub struct I2C {
regs: regs::RegisterWrapper,
count_down: super::timer::global::CountDown<Microseconds>
}
impl I2C {
#[cfg(feature = "target_zc706")]
pub fn i2c() -> Self {
// Route I2C 0 SCL / SDA Signals to MIO Pins 50 / 51
slcr::RegisterBlock::unlocked(|slcr| {
// SCL
slcr.mio_pin_50.write(
slcr::MioPin50::zeroed()
.l3_sel(0b000) // as GPIO 50
.io_type(slcr::IoBufferType::Lvcmos18)
.pullup(true)
.disable_rcvr(true)
);
// SDA
slcr.mio_pin_51.write(
slcr::MioPin51::zeroed()
.l3_sel(0b000) // as GPIO 51
.io_type(slcr::IoBufferType::Lvcmos18)
.pullup(true)
.disable_rcvr(true)
);
// Reset
slcr.gpio_rst_ctrl.reset_gpio();
});
Self::ctor_common(0xFFFF - 0x000C)
}
fn ctor_common(gpio_output_mask: u16) -> Self {
// Setup register block
let clocks = Clocks::get();
let self_ = Self {
regs: regs::RegisterWrapper::new(),
count_down: unsafe { super::timer::GlobalTimer::get() }.countdown()
};
// Setup GPIO output mask
self_.regs.gpio_output_mask.modify(|_, w| {
w.mask(gpio_output_mask)
});
// Setup GPIO driver direction
self_.regs.gpio_direction.modify(|_, w| {
w.scl(true).sda(true)
});
self_
}
/// Delay for I2C operations, simple wrapper for nb.
fn delay_us(&mut self, us: u64) {
self.count_down.start(Microseconds(us));
nb::block!(self.count_down.wait()).unwrap();
}
fn half_period(&mut self) { self.delay_us(100) }
fn sda_i(&mut self) -> bool {
self.regs.gpio_input.read().sda()
}
fn scl_i(&mut self) -> bool {
self.regs.gpio_input.read().scl()
}
fn sda_oe(&mut self, oe: bool) {
self.regs.gpio_output_enable.modify(|_, w| {
w.sda(oe)
})
}
fn sda_o(&mut self, o: bool) {
self.regs.gpio_output_mask.modify(|_, w| {
w.sda_o(o)
})
}
fn scl_oe(&mut self, oe: bool) {
self.regs.gpio_output_enable.modify(|_, w| {
w.scl(oe)
})
}
fn scl_o(&mut self, o: bool) {
self.regs.gpio_output_mask.modify(|_, w| {
w.scl_o(o)
})
}
pub fn init(&mut self) -> Result<(), &'static str> {
self.scl_oe(false);
self.sda_oe(false);
self.scl_o(false);
self.sda_o(false);
// Check the I2C bus is ready
self.half_period();
self.half_period();
if !self.sda_i() {
// Try toggling SCL a few times
for _bit in 0..8 {
self.scl_oe(true);
self.half_period();
self.scl_oe(false);
self.half_period();
}
}
if !self.sda_i() {
return Err("SDA is stuck low and doesn't get unstuck");
}
if !self.scl_i() {
return Err("SCL is stuck low and doesn't get unstuck");
}
// postcondition: SCL and SDA high
Ok(())
}
pub fn start(&mut self) -> Result<(), &'static str> {
// precondition: SCL and SDA high
if !self.scl_i() {
return Err("SCL is stuck low and doesn't get unstuck");
}
if !self.sda_i() {
return Err("SDA arbitration lost");
}
self.sda_oe(true);
self.half_period();
self.scl_oe(true);
// postcondition: SCL and SDA low
Ok(())
}
pub fn restart(&mut self) -> Result<(), &'static str> {
// precondition SCL and SDA low
self.sda_oe(false);
self.half_period();
self.scl_oe(false);
self.half_period();
self.start()?;
// postcondition: SCL and SDA low
Ok(())
}
pub fn stop(&mut self) -> Result<(), &'static str> {
// precondition: SCL and SDA low
self.half_period();
self.scl_oe(false);
self.half_period();
self.sda_oe(false);
self.half_period();
if !self.sda_i() {
return Err("SDA arbitration lost");
}
// postcondition: SCL and SDA high
Ok(())
}
pub fn write(&mut self, data: u8) -> Result<bool, &'static str> {
// precondition: SCL and SDA low
// MSB first
for bit in (0..8).rev() {
self.sda_oe(data & (1 << bit) == 0);
self.half_period();
self.scl_oe(false);
self.half_period();
self.scl_oe(true);
}
self.sda_oe(false);
self.half_period();
self.scl_oe(false);
self.half_period();
// Read ack/nack
let ack = !self.sda_i();
self.scl_oe(true);
self.sda_oe(true);
// postcondition: SCL and SDA low
Ok(ack)
}
pub fn read(&mut self, ack: bool) -> Result<u8, &'static str> {
// precondition: SCL and SDA low
self.sda_oe(false);
let mut data: u8 = 0;
// MSB first
for bit in (0..8).rev() {
self.half_period();
self.scl_oe(false);
self.half_period();
if self.sda_i() { data |= 1 << bit }
self.scl_oe(true);
}
// Send ack/nack
self.sda_oe(ack);
self.half_period();
self.scl_oe(false);
self.half_period();
self.scl_oe(true);
self.sda_oe(true);
// postcondition: SCL and SDA low
Ok(data)
}
pub fn pca9548_select(&mut self, address: u8, channels: u8) -> Result<(), &'static str> {
self.start()?;
if !self.write(address << 1)? {
return Err("PCA9548 failed to ack write address")
}
if !self.write(channels)? {
return Err("PCA9548 failed to ack control word")
}
self.stop()?;
Ok(())
}
}

View File

@ -1,93 +0,0 @@
use volatile_register::{RO, WO, RW};
use libregister::{
register, register_at,
register_bit, register_bits
};
// With reference to:
//
// artiq:artiq/gateware/targets/kasli.py:
// self.submodules.i2c = gpio.GPIOTristate([i2c.scl, i2c.sda])
//
// misoc:misoc/cores/gpio.py:
// class GPIOTristate(Module, AutoCSR):
// def __init__(self, signals, reset_out=0, reset_oe=0):
// l = len(signals)
// self._in = CSRStatus(l)
// self._out = CSRStorage(l, reset=reset_out)
// self._oe = CSRStorage(l, reset=reset_oe)
//
// Hence, using GPIOs as SCL and SDA GPIOs respectively.
//
// Current compatibility:
// zc706: GPIO 50, 51 == SCL, SDA
pub struct RegisterWrapper {
pub gpio_output_mask: &'static mut GPIOOutputMask,
pub gpio_input: &'static mut GPIOInput,
pub gpio_direction: &'static mut GPIODirection,
pub gpio_output_enable: &'static mut GPIOOutputEnable,
}
impl RegisterWrapper {
pub fn new() -> Self {
Self {
gpio_output_mask: GPIOOutputMask::new(),
gpio_input: GPIOInput::new(),
gpio_direction: GPIODirection::new(),
gpio_output_enable: GPIOOutputEnable::new()
}
}
}
// MASK_DATA_1_MSW:
// Maskable output data for MIO[53:48]
register!(gpio_output_mask, GPIOOutputMask, RW, u32);
#[cfg(feature = "target_zc706")]
register_at!(GPIOOutputMask, 0xE000A00C, new);
// Output for SCL
#[cfg(feature = "target_zc706")]
register_bit!(gpio_output_mask, scl_o, 2);
// Output for SDA
#[cfg(feature = "target_zc706")]
register_bit!(gpio_output_mask, sda_o, 3);
// Mask for keeping bits except SCL and SDA unchanged
#[cfg(feature = "target_zc706")]
register_bits!(gpio_output_mask, mask, u16, 16, 31);
// DATA_1_RO:
// Input data for MIO[53:32]
register!(gpio_input, GPIOInput, RO, u32);
#[cfg(feature = "target_zc706")]
register_at!(GPIOInput, 0xE000A064, new);
// Input for SCL
#[cfg(feature = "target_zc706")]
register_bit!(gpio_input, scl, 18);
// Input for SDA
#[cfg(feature = "target_zc706")]
register_bit!(gpio_input, sda, 19);
// DIRM_1:
// Direction mode for MIO[53:32]; 0/1 = in/out
register!(gpio_direction, GPIODirection, RW, u32);
#[cfg(feature = "target_zc706")]
register_at!(GPIODirection, 0xE000A244, new);
// Direction for SCL
#[cfg(feature = "target_zc706")]
register_bit!(gpio_direction, scl, 18);
// Direction for SDA
#[cfg(feature = "target_zc706")]
register_bit!(gpio_direction, sda, 19);
// OEN_1:
// Output enable for MIO[53:32]
register!(gpio_output_enable, GPIOOutputEnable, RW, u32);
#[cfg(feature = "target_zc706")]
register_at!(GPIOOutputEnable, 0xE000A248, new);
// Output enable for SCL
#[cfg(feature = "target_zc706")]
register_bit!(gpio_output_enable, scl, 18);
// Output enable for SDA
#[cfg(feature = "target_zc706")]
register_bit!(gpio_output_enable, sda, 19);

View File

@ -15,12 +15,9 @@ pub mod axi_hp;
pub mod axi_gp; pub mod axi_gp;
pub mod ddr; pub mod ddr;
pub mod mpcore; pub mod mpcore;
pub mod gic;
pub mod flash; pub mod flash;
pub mod time; pub mod time;
pub mod timer; pub mod timer;
pub mod sdio; pub mod sdio;
#[cfg(feature = "target_zc706")]
pub mod i2c;
pub mod logger; pub mod logger;
pub mod ps7_init; pub mod ps7_init;

View File

@ -8,141 +8,48 @@ use libregister::{
#[repr(C)] #[repr(C)]
pub struct RegisterBlock { pub struct RegisterBlock {
/// SCU Control Register
pub scu_control: ScuControl, pub scu_control: ScuControl,
/// SCU Configuration Register pub scu_config: RO<u32>,
pub scu_config: ScuConfig, pub scu_cpu_power: RW<u32>,
/// SCU CPU Power Status Register
pub scu_cpu_power_status: SCUCPUPowerStatusRegister,
/// SCU Invalidate All Registers in Secure State
pub scu_invalidate: ScuInvalidate, pub scu_invalidate: ScuInvalidate,
unused0: [u32; 12], reserved0: [u32; 12],
/// Filtering Start Address Register pub filter_start: RW<u32>,
pub filtering_start_address: FilteringStartAddressRegister, pub filter_end: RW<u32>,
/// Defined by FILTEREND input reserved1: [u32; 2],
pub filtering_end_address: FilteringEndAddressRegister, pub scu_access_control: RW<u32>,
unused1: [u32; 2], pub scu_non_secure_access_control: RW<u32>,
/// SCU Access Control (SAC) Register reserved2: [u32; 42],
pub scu_access_control_sac: SCUAccessControlRegisterSAC, pub iccicr: RW<u32>,
/// SCU Non-secure Access Control Register SNSAC pub iccpmw: RW<u32>,
pub scu_non_secure_access_control: SCUNonSecureAccessControlRegister, pub iccbpr: RW<u32>,
unused2: [u32; 42], pub icciar: RW<u32>,
/// CPU Interface Control Register pub icceoir: RW<u32>,
pub iccicr: ICCICR, pub iccrpr: RW<u32>,
/// Interrupt Priority Mask Register pub icchpir: RW<u32>,
pub iccpmr: ICCPMR, pub iccabpr: RW<u32>,
/// Binary Point Register reserved3: [u32; 55],
pub iccbpr: ICCBPR, pub iccidr: RW<u32>,
/// Interrupt Acknowledge Register
pub icciar: ICCIAR,
/// End Of Interrupt Register
pub icceoir: ICCEOIR,
/// Running Priority Register
pub iccrpr: ICCRPR,
/// Highest Pending Interrupt Register
pub icchpir: ICCHPIR,
/// Aliased Non-secure Binary Point Register
pub iccabpr: ICCABPR,
unused3: [u32; 55],
/// CPU Interface Implementer Identification Register
pub iccidr: ICCIDR,
/// Global Timer Counter Register 0
pub global_timer_counter0: ValueRegister, pub global_timer_counter0: ValueRegister,
pub global_timer_counter1: ValueRegister, pub global_timer_counter1: ValueRegister,
/// Global Timer Control Register
pub global_timer_control: GlobalTimerControl, pub global_timer_control: GlobalTimerControl,
/// Global Timer Interrupt Status Register pub global_timer_interrupt_status: RW<u32>,
pub global_timer_interrupt_status: GlobalTimerInterruptStatusRegister,
/// Comparator Value Register_0
pub comparator_value0: ValueRegister, pub comparator_value0: ValueRegister,
pub comparator_value1: ValueRegister, pub comparator_value1: ValueRegister,
/// Auto-increment Register pub auto_increment: ValueRegister,
pub auto_increment: RW<u32>, reserved4: [u32; 249],
unused4: [u32; 249], pub private_timer_load: ValueRegister,
/// Private Timer Load Register pub private_timer_counter: ValueRegister,
pub private_timer_load: RW<u32>, pub private_timer_control: RW<u32>,
/// Private Timer Counter Register pub private_timer_interrupt_status: RW<u32>,
pub private_timer_counter: RW<u32>, reserved5: [u32; 4],
/// Private Timer Control Register pub watchdog_load: ValueRegister,
pub private_timer_control: PrivateTimerControlRegister, pub watchdog_counter: ValueRegister,
/// Private Timer Interrupt Status Register pub watchdog_control: RW<u32>,
pub private_timer_interrupt_status: PrivateTimerInterruptStatusRegister, pub watchdog_interrupt_status: RW<u32>,
unused5: [u32; 4], // there is plenty more (unimplemented)
/// Watchdog Load Register
pub watchdog_load: RW<u32>,
/// Watchdog Counter Register
pub watchdog_counter: RW<u32>,
/// Watchdog Control Register
pub watchdog_control: WatchdogControlRegister,
/// Watchdog Interrupt Status Register
pub watchdog_interrupt_status: WatchdogInterruptStatusRegister,
/// Watchdog Reset Status Register
pub watchdog_reset_status: WatchdogResetStatusRegister,
/// Watchdog Disable Register
pub watchdog_disable: RW<u32>,
unused6: [u32; 626],
/// Distributor Control Register
pub icddcr: ICDDCR,
/// Interrupt Controller Type Register
pub icdictr: ICDICTR,
/// Distributor Implementer Identification Register
pub icdiidr: ICDIIDR,
unused7: [u32; 29],
/// Interrupt Security Register
pub icdisr0: RW<u32>,
pub icdisr1: RW<u32>,
pub icdisr2: RW<u32>,
unused8: [u32; 29],
/// Interrupt Set-enable Registers
pub icdiser: [RW<u32>; 3],
unused9: [u32; 29],
/// Interrupt Clear-Enable Register 0
pub icdicer0: RW<u32>,
/// Interrupt Clear-Enable Register 1
pub icdicer1: RW<u32>,
/// Interrupt Clear-Enable Register 2
pub icdicer2: RW<u32>,
unused10: [u32; 29],
/// Interrupt Set-pending Register
pub icdispr0: RW<u32>,
pub icdispr1: RW<u32>,
pub icdispr2: RW<u32>,
unused11: [u32; 29],
/// Interrupt Clear-Pending Register
pub icdicpr0: RW<u32>,
pub icdicpr1: RW<u32>,
pub icdicpr2: RW<u32>,
unused12: [u32; 29],
/// Active Bit register
pub icdabr0: RW<u32>,
pub icdabr1: RW<u32>,
pub icdabr2: RW<u32>,
unused13: [u32; 61],
/// Interrupt Priority Register
pub icdipr: [RW<u32>; 24],
unused14: [u32; 232],
/// Interrupt Processor Targets Registers
pub icdiptr: [RW<u32>; 24],
unused15: [u32; 232],
/// Interrupt Configuration Registers
pub icdicfr: [RW<u32>; 6],
unused16: [u32; 58],
/// PPI Status Register
pub ppi_status: PpiStatus,
/// SPI Status Register 0
pub spi_status_0: RO<u32>,
/// SPI Status Register 1
pub spi_status_1: RO<u32>,
unused17: [u32; 125],
/// Software Generated Interrupt Register
pub icdsgir: ICDSGIR,
} }
register_at!(RegisterBlock, 0xF8F00000, new); register_at!(RegisterBlock, 0xF8F00000, new);
register!(value_register, ValueRegister, RW, u32);
register_bits!(value_register, value, u32, 0, 31);
register!(scu_control, ScuControl, RW, u32); register!(scu_control, ScuControl, RW, u32);
register_bit!(scu_control, ic_standby_enable, 6); register_bit!(scu_control, ic_standby_enable, 6);
register_bit!(scu_control, scu_standby_enable, 5); register_bit!(scu_control, scu_standby_enable, 5);
@ -158,17 +65,6 @@ impl ScuControl {
} }
} }
register!(scu_config, ScuConfig, RO, u32);
register_bits!(scu_config, tag_ram_sizes, u8, 8, 15);
register_bits!(scu_config, cpus_smp, u8, 4, 7);
register_bits!(scu_config, cpu_number, u8, 0, 1);
register!(scu_cpu_power_status, SCUCPUPowerStatusRegister, RW, u32);
register_bits!(scu_cpu_power_status, cpu3_status, u8, 24, 25);
register_bits!(scu_cpu_power_status, cpu2_status, u8, 16, 17);
register_bits!(scu_cpu_power_status, cpu1_status, u8, 8, 9);
register_bits!(scu_cpu_power_status, cpu0_status, u8, 0, 1);
register!(scu_invalidate, ScuInvalidate, WO, u32); register!(scu_invalidate, ScuInvalidate, WO, u32);
register_bits!(scu_invalidate, cpu0_ways, u8, 0, 3); register_bits!(scu_invalidate, cpu0_ways, u8, 0, 3);
register_bits!(scu_invalidate, cpu1_ways, u8, 4, 7); register_bits!(scu_invalidate, cpu1_ways, u8, 4, 7);
@ -192,71 +88,8 @@ impl ScuInvalidate {
} }
} }
register!(filtering_start_address, FilteringStartAddressRegister, RW, u32); register!(value_register, ValueRegister, RW, u32);
register_bits!(filtering_start_address, filtering_start_address, u32, 20, 31); register_bits!(value_register, value, u32, 0, 31);
register_bits!(filtering_start_address, sbz, u32, 0, 19);
register!(filtering_end_address, FilteringEndAddressRegister, RW, u32);
register_bits!(filtering_end_address, filtering_end_address, u32, 20, 31);
register_bits!(filtering_end_address, sbz, u32, 0, 19);
register!(scu_access_control_sac, SCUAccessControlRegisterSAC, RW, u32);
register_bit!(scu_access_control_sac, cp_u3, 3);
register_bit!(scu_access_control_sac, cp_u2, 2);
register_bit!(scu_access_control_sac, cp_u1, 1);
register_bit!(scu_access_control_sac, cp_u0, 0);
register!(scu_non_secure_access_control, SCUNonSecureAccessControlRegister, RO, u32);
register_bits!(scu_non_secure_access_control, sbz, u32, 12, 31);
register_bit!(scu_non_secure_access_control, cpu3_global_timer, 11);
register_bit!(scu_non_secure_access_control, cpu2_global_timer, 10);
register_bit!(scu_non_secure_access_control, cpu1_global_timer, 9);
register_bit!(scu_non_secure_access_control, cpu0_global_timer, 8);
register_bit!(scu_non_secure_access_control, private_timers_for_cpu3, 7);
register_bit!(scu_non_secure_access_control, private_timers_for_cpu2, 6);
register_bit!(scu_non_secure_access_control, private_timers_for_cpu1, 5);
register_bit!(scu_non_secure_access_control, private_timers_for_cpu0, 4);
register_bit!(scu_non_secure_access_control, component_access_for_cpu3, 3);
register_bit!(scu_non_secure_access_control, component_access_for_cpu2, 2);
register_bit!(scu_non_secure_access_control, component_access_for_cpu1, 1);
register_bit!(scu_non_secure_access_control, component_access_for_cpu0, 0);
register!(iccicr, ICCICR, RW, u32);
register_bit!(iccicr, sbpr, 4);
register_bit!(iccicr, fiq_en, 3);
register_bit!(iccicr, ack_ctl, 2);
register_bit!(iccicr, enable_ns, 1);
register_bit!(iccicr, enable_s, 0);
register!(iccpmr, ICCPMR, RW, u32);
register_bits!(iccpmr, priority, u8, 0, 7);
register!(iccbpr, ICCBPR, RW, u32);
register_bits!(iccbpr, binary_point, u8, 0, 2);
register!(icciar, ICCIAR, RW, u32);
register_bits!(icciar, cpuid, u8, 10, 12);
register_bits!(icciar, ackintid, u32, 0, 9);
register!(icceoir, ICCEOIR, RW, u32);
register_bits!(icceoir, cpuid, u8, 10, 12);
register_bits!(icceoir, eoiintid, u32, 0, 9);
register!(iccrpr, ICCRPR, RW, u32);
register_bits!(iccrpr, priority, u8, 0, 7);
register!(icchpir, ICCHPIR, RW, u32);
register_bits!(icchpir, cpuid, u8, 10, 12);
register_bits!(icchpir, pendintid, u32, 0, 9);
register!(iccabpr, ICCABPR, RW, u32);
register_bits!(iccabpr, binary_point, u8, 0, 2);
register!(iccidr, ICCIDR, RO, u32);
register_bits!(iccidr, part_number, u32, 20, 31);
register_bits!(iccidr, architecture_version, u8, 16, 19);
register_bits!(iccidr, revision_number, u8, 12, 15);
register_bits!(iccidr, implementer, u32, 0, 11);
register!(global_timer_control, GlobalTimerControl, RW, u32); register!(global_timer_control, GlobalTimerControl, RW, u32);
register_bits!(global_timer_control, prescaler, u8, 8, 15); register_bits!(global_timer_control, prescaler, u8, 8, 15);
@ -264,58 +97,3 @@ register_bit!(global_timer_control, auto_increment_mode, 3);
register_bit!(global_timer_control, irq_enable, 2); register_bit!(global_timer_control, irq_enable, 2);
register_bit!(global_timer_control, comp_enablea, 1); register_bit!(global_timer_control, comp_enablea, 1);
register_bit!(global_timer_control, timer_enable, 0); register_bit!(global_timer_control, timer_enable, 0);
register!(global_timer_interrupt_status, GlobalTimerInterruptStatusRegister, RW, u32);
register_bit!(global_timer_interrupt_status, event_flag, 0);
register!(private_timer_control, PrivateTimerControlRegister, RW, u32);
register_bits!(private_timer_control, sbzp, u32, 16, 31);
register_bits!(private_timer_control, prescaler, u8, 8, 15);
register_bits!(private_timer_control, unk_sbzp, u8, 3, 7);
register_bit!(private_timer_control, irq_enable, 2);
register_bit!(private_timer_control, auto_reload, 1);
register_bit!(private_timer_control, timer_enable, 0);
register!(private_timer_interrupt_status, PrivateTimerInterruptStatusRegister, RW, u32);
register_bits!(private_timer_interrupt_status, unk_sbzp, u32, 1, 31);
register!(watchdog_control, WatchdogControlRegister, RW, u32);
register_bits!(watchdog_control, prescaler, u8, 8, 15);
register_bit!(watchdog_control, watchdog_mode, 3);
register_bit!(watchdog_control, it_enable, 2);
register_bit!(watchdog_control, auto_reload, 1);
register_bit!(watchdog_control, watchdog_enable, 0);
register!(watchdog_interrupt_status, WatchdogInterruptStatusRegister, RW, u32);
register_bit!(watchdog_interrupt_status, event_flag, 0);
register!(watchdog_reset_status, WatchdogResetStatusRegister, RW, u32);
register_bit!(watchdog_reset_status, reset_flag, 0);
register!(icddcr, ICDDCR, RW, u32);
register_bit!(icddcr, enable_non_secure, 1);
register_bit!(icddcr, enable_secure, 0);
register!(icdictr, ICDICTR, RO, u32);
register_bits!(icdictr, lspi, u8, 11, 15);
register_bit!(icdictr, security_extn, 10);
register_bits!(icdictr, sbz, u8, 8, 9);
register_bits!(icdictr, cpu_number, u8, 5, 7);
register_bits!(icdictr, it_lines_number, u8, 0, 4);
register!(icdiidr, ICDIIDR, RO, u32);
register_bits!(icdiidr, implementation_version, u8, 24, 31);
register_bits!(icdiidr, revision_number, u32, 12, 23);
register_bits!(icdiidr, implementer, u32, 0, 11);
register!(ppi_status, PpiStatus, RO, u32);
register_bits!(ppi_status, ppi_status, u8, 11, 15);
register_bits!(ppi_status, sbz, u32, 0, 10);
register!(icdsgir, ICDSGIR, RW, u32);
register_bits!(icdsgir, target_list_filter, u8, 24, 25);
register_bits!(icdsgir, cpu_target_list, u8, 16, 23);
register_bit!(icdsgir, satt, 15);
register_bits!(icdsgir, sbz, u32, 4, 14);
register_bits!(icdsgir, sgiintid, u8, 0, 3);

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@ -132,7 +132,7 @@ pub struct RegisterBlock {
pub can_rst_ctrl: RW<u32>, pub can_rst_ctrl: RW<u32>,
pub i2c_rst_ctrl: RW<u32>, pub i2c_rst_ctrl: RW<u32>,
pub uart_rst_ctrl: UartRstCtrl, pub uart_rst_ctrl: UartRstCtrl,
pub gpio_rst_ctrl: GpioRstCtrl, pub gpio_rst_ctrl: RW<u32>,
pub lqspi_rst_ctrl: LqspiRstCtrl, pub lqspi_rst_ctrl: LqspiRstCtrl,
pub smc_rst_ctrl: RW<u32>, pub smc_rst_ctrl: RW<u32>,
pub ocm_rst_ctrl: RW<u32>, pub ocm_rst_ctrl: RW<u32>,
@ -531,20 +531,6 @@ impl UartRstCtrl {
} }
} }
register!(gpio_rst_ctrl, GpioRstCtrl, RW, u32);
register_bit!(gpio_rst_ctrl, gpio_cpu1x_rst, 0);
register_at!(GpioRstCtrl, 0xF800022C, new);
impl GpioRstCtrl {
pub fn reset_gpio(&mut self) {
self.modify(|_, w|
w.gpio_cpu1x_rst(true)
);
self.modify(|_, w|
w.gpio_cpu1x_rst(false)
);
}
}
register!(lqspi_clk_ctrl, LqspiClkCtrl, RW, u32); register!(lqspi_clk_ctrl, LqspiClkCtrl, RW, u32);
register_bit!(lqspi_clk_ctrl, clkact, 0); register_bit!(lqspi_clk_ctrl, clkact, 0);
register_bits_typed!(lqspi_clk_ctrl, src_sel, u8, PllSource, 4, 5); register_bits_typed!(lqspi_clk_ctrl, src_sel, u8, PllSource, 4, 5);

View File

@ -138,15 +138,6 @@ where
} }
} }
impl<U: PartialOrd> CountDown<U>
where
GlobalTimer: TimeSource<U>,
{
pub fn waiting(&self) -> bool {
self.timer.now() <= self.timeout
}
}
/// embedded-hal sync API /// embedded-hal sync API
impl embedded_hal::blocking::delay::DelayMs<u64> for GlobalTimer { impl embedded_hal::blocking::delay::DelayMs<u64> for GlobalTimer {
fn delay_ms(&mut self, ms: u64) { fn delay_ms(&mut self, ms: u64) {

View File

@ -7,7 +7,6 @@ edition = "2018"
[features] [features]
target_zc706 = [] target_zc706 = []
target_cora_z7_10 = [] target_cora_z7_10 = []
power_saving = []
default = ["target_zc706"] default = ["target_zc706"]
[dependencies] [dependencies]

View File

@ -33,44 +33,3 @@ pub fn dsb() {
pub fn isb() { pub fn isb() {
unsafe { llvm_asm!("isb" :::: "volatile") } unsafe { llvm_asm!("isb" :::: "volatile") }
} }
/// Enable IRQ
#[inline]
pub unsafe fn enable_irq() {
llvm_asm!("cpsie i":::: "volatile");
}
/// Disable IRQ, return if IRQ was originally enabled.
#[inline]
pub unsafe fn enter_critical() -> bool {
let mut cpsr: u32;
llvm_asm!(
"mrs $0, cpsr
cpsid i"
: "=r"(cpsr) ::: "volatile");
(cpsr & (1 << 7)) == 0
}
#[inline]
pub unsafe fn exit_critical(enable: bool) {
// https://stackoverflow.com/questions/40019929/temporarily-disable-interrupts-on-arm
let mask: u32 = if enable {
1 << 7
} else {
0
};
llvm_asm!(
"mrs r1, cpsr
bic r1, r1, $0
msr cpsr_c, r1"
:: "r"(mask) : "r1");
}
/// Exiting IRQ
#[inline]
pub unsafe fn exit_irq() {
llvm_asm!("
mrs r0, SPSR
msr CPSR, r0
" ::: "r0");
}

View File

@ -11,26 +11,9 @@ pub mod cache;
pub mod mmu; pub mod mmu;
pub mod mutex; pub mod mutex;
pub mod sync_channel; pub mod sync_channel;
pub mod semaphore;
mod uncached; mod uncached;
mod fpu; mod fpu;
pub use uncached::UncachedSlice; pub use uncached::UncachedSlice;
pub use fpu::enable_fpu; pub use fpu::enable_fpu;
global_asm!(include_str!("exceptions.s")); global_asm!(include_str!("exceptions.s"));
#[inline]
pub fn spin_lock_yield() {
#[cfg(feature = "power_saving")]
asm::wfe();
}
#[inline]
pub fn notify_spin_lock() {
#[cfg(feature = "power_saving")]
{
asm::dsb();
asm::sev();
}
}

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@ -338,7 +338,7 @@ impl L1Table {
/* 0xfff00000 - 0xffffffff (256K OCM when mapped to high address space) */ /* 0xfff00000 - 0xffffffff (256K OCM when mapped to high address space) */
self.direct_mapped_section(0xfff, L1Section { self.direct_mapped_section(0xfff, L1Section {
global: true, global: true,
shareable: true, shareable: false,
access: AccessPermissions::FullAccess, access: AccessPermissions::FullAccess,
tex: 0b100, tex: 0b100,
domain: 0, domain: 0,

View File

@ -1,10 +1,20 @@
use core::ops::{Deref, DerefMut}; use core::ops::{Deref, DerefMut};
use core::sync::atomic::{AtomicU32, Ordering}; use core::sync::atomic::{AtomicU32, Ordering};
use core::cell::UnsafeCell; use core::cell::UnsafeCell;
use super::{ use super::asm::*;
spin_lock_yield, notify_spin_lock,
asm::{dmb, enter_critical, exit_critical} /// [Power-saving features](http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dht0008a/ch01s03s02.html)
}; #[inline]
fn wait_for_update() {
wfe();
}
/// [Power-saving features](http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dht0008a/ch01s03s02.html)
#[inline]
fn signal_update() {
dsb();
sev();
}
const LOCKED: u32 = 1; const LOCKED: u32 = 1;
const UNLOCKED: u32 = 0; const UNLOCKED: u32 = 0;
@ -31,26 +41,19 @@ impl<T> Mutex<T> {
/// Lock the Mutex, blocks when already locked /// Lock the Mutex, blocks when already locked
pub fn lock(&self) -> MutexGuard<T> { pub fn lock(&self) -> MutexGuard<T> {
let mut irq = unsafe { enter_critical() };
while self.locked.compare_and_swap(UNLOCKED, LOCKED, Ordering::Acquire) != UNLOCKED { while self.locked.compare_and_swap(UNLOCKED, LOCKED, Ordering::Acquire) != UNLOCKED {
unsafe { wait_for_update();
exit_critical(irq);
spin_lock_yield();
irq = enter_critical();
}
} }
dmb(); dmb();
MutexGuard { mutex: self, irq } MutexGuard { mutex: self }
} }
pub fn try_lock(&self) -> Option<MutexGuard<T>> { pub fn try_lock(&self) -> Option<MutexGuard<T>> {
let irq = unsafe { enter_critical() };
if self.locked.compare_and_swap(UNLOCKED, LOCKED, Ordering::Acquire) != UNLOCKED { if self.locked.compare_and_swap(UNLOCKED, LOCKED, Ordering::Acquire) != UNLOCKED {
unsafe { exit_critical(irq) };
None None
} else { } else {
dmb(); dmb();
Some(MutexGuard { mutex: self, irq }) Some(MutexGuard { mutex: self })
} }
} }
@ -58,7 +61,7 @@ impl<T> Mutex<T> {
dmb(); dmb();
self.locked.store(UNLOCKED, Ordering::Release); self.locked.store(UNLOCKED, Ordering::Release);
notify_spin_lock(); signal_update();
} }
} }
@ -66,7 +69,6 @@ impl<T> Mutex<T> {
/// `Deref`/`DerefMutx` /// `Deref`/`DerefMutx`
pub struct MutexGuard<'a, T> { pub struct MutexGuard<'a, T> {
mutex: &'a Mutex<T>, mutex: &'a Mutex<T>,
irq: bool,
} }
impl<'a, T> Deref for MutexGuard<'a, T> { impl<'a, T> Deref for MutexGuard<'a, T> {
@ -86,6 +88,5 @@ impl<'a, T> DerefMut for MutexGuard<'a, T> {
impl<'a, T> Drop for MutexGuard<'a, T> { impl<'a, T> Drop for MutexGuard<'a, T> {
fn drop(&mut self) { fn drop(&mut self) {
self.mutex.unlock(); self.mutex.unlock();
unsafe { exit_critical(self.irq) };
} }
} }

View File

@ -1,71 +0,0 @@
use super::{spin_lock_yield, notify_spin_lock};
use core::{
task::{Context, Poll},
pin::Pin,
future::Future,
sync::atomic::{AtomicI32, Ordering}
};
pub struct Semaphore {
value: AtomicI32,
max: i32
}
impl Semaphore {
pub fn new(value: i32, max: i32) -> Self {
Semaphore { value: AtomicI32::new(value), max}
}
pub fn try_wait(&self) -> Option<()> {
loop {
let value = self.value.load(Ordering::Relaxed);
if value > 0 {
if self.value.compare_and_swap(value, value - 1, Ordering::SeqCst) == value {
return Some(());
}
} else {
return None;
}
}
}
pub fn wait(&self) {
while self.try_wait().is_none() {
spin_lock_yield();
}
}
pub async fn async_wait(&self) {
struct Fut<'a>(&'a Semaphore);
impl Future for Fut<'_> {
type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
match self.0.try_wait() {
Some(_) => Poll::Ready(()),
None => {
cx.waker().wake_by_ref();
Poll::Pending
}
}
}
}
Fut(&self).await
}
pub fn signal(&self) {
loop {
let value = self.value.load(Ordering::Relaxed);
if value < self.max {
if self.value.compare_and_swap(value, value + 1, Ordering::SeqCst) == value {
notify_spin_lock();
return;
}
} else {
return;
}
}
}
}

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@ -6,7 +6,7 @@ use core::{
task::{Context, Poll}, task::{Context, Poll},
}; };
use alloc::boxed::Box; use alloc::boxed::Box;
use super::{spin_lock_yield, notify_spin_lock}; use super::asm::*;
pub struct Sender<'a, T> where T: Clone { pub struct Sender<'a, T> where T: Clone {
list: &'a [AtomicPtr<T>], list: &'a [AtomicPtr<T>],
@ -35,7 +35,9 @@ impl<'a, T> Sender<'a, T> where T: Clone {
let prev = entry.swap(ptr, Ordering::Relaxed); let prev = entry.swap(ptr, Ordering::Relaxed);
// we allow other end get it first // we allow other end get it first
self.write.store((write + 1) % self.list.len(), Ordering::Release); self.write.store((write + 1) % self.list.len(), Ordering::Release);
notify_spin_lock(); // wake up other core, actually I wonder if the dsb is really needed...
dsb();
sev();
if !prev.is_null() { if !prev.is_null() {
unsafe { unsafe {
drop_in_place(prev); drop_in_place(prev);
@ -49,7 +51,7 @@ impl<'a, T> Sender<'a, T> where T: Clone {
let mut content = content; let mut content = content;
while let Err(back) = self.try_send(content) { while let Err(back) = self.try_send(content) {
content = back; content = back;
spin_lock_yield(); wfe();
} }
} }
@ -85,27 +87,6 @@ impl<'a, T> Sender<'a, T> where T: Clone {
content: Err(content.into()), content: Err(content.into()),
}.await }.await
} }
/// free all items in the queue. It is the user's responsibility to
/// ensure no reader is trying to copy the data.
pub unsafe fn drop_elements(&mut self) {
for v in self.list.iter() {
let original = v.swap(core::ptr::null_mut(), Ordering::Relaxed);
if !original.is_null() {
drop_in_place(original);
}
}
}
/// Reset the `sync_channel`, *forget* all items in the queue. Affects both the sender and
/// receiver.
pub unsafe fn reset(&mut self) {
self.write.store(0, Ordering::Relaxed);
self.read.store(0, Ordering::Relaxed);
for v in self.list.iter() {
v.store(core::ptr::null_mut(), Ordering::Relaxed);
}
}
} }
impl<'a, T> Receiver<'a, T> where T: Clone { impl<'a, T> Receiver<'a, T> where T: Clone {
@ -125,7 +106,9 @@ impl<'a, T> Receiver<'a, T> where T: Clone {
}; };
let result = data.clone(); let result = data.clone();
self.read.store((read + 1) % self.list.len(), Ordering::Release); self.read.store((read + 1) % self.list.len(), Ordering::Release);
notify_spin_lock(); // wake up other core, still idk if the dsb is needed...
dsb();
sev();
Ok(result) Ok(result)
} }
} }
@ -135,7 +118,7 @@ impl<'a, T> Receiver<'a, T> where T: Clone {
if let Ok(data) = self.try_recv() { if let Ok(data) = self.try_recv() {
return data; return data;
} }
spin_lock_yield(); wfe();
} }
} }

View File

@ -9,10 +9,8 @@ edition = "2018"
target_zc706 = ["libboard_zynq/target_zc706"] target_zc706 = ["libboard_zynq/target_zc706"]
target_cora_z7_10 = ["libboard_zynq/target_cora_z7_10"] target_cora_z7_10 = ["libboard_zynq/target_cora_z7_10"]
panic_handler = [] panic_handler = []
dummy_irq_handler = []
alloc_core = []
default = ["panic_handler", "dummy_irq_handler"] default = ["panic_handler"]
[dependencies] [dependencies]
r0 = "1" r0 = "1"

View File

@ -53,7 +53,6 @@ pub unsafe extern "C" fn ReservedException() {
#[link_section = ".text.boot"] #[link_section = ".text.boot"]
#[no_mangle] #[no_mangle]
#[naked] #[naked]
#[cfg(feature = "dummy_irq_handler")]
pub unsafe extern "C" fn IRQ() { pub unsafe extern "C" fn IRQ() {
stdio::drop_uart(); stdio::drop_uart();
println!("IRQ"); println!("IRQ");

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@ -4,7 +4,7 @@ use libregister::{
VolatileCell, VolatileCell,
RegisterR, RegisterW, RegisterRW, RegisterR, RegisterW, RegisterRW,
}; };
use libcortex_a9::{asm, regs::*, cache, mmu, spin_lock_yield, notify_spin_lock}; use libcortex_a9::{asm, regs::*, cache, mmu};
use libboard_zynq::{slcr, mpcore}; use libboard_zynq::{slcr, mpcore};
extern "C" { extern "C" {
@ -29,7 +29,7 @@ pub unsafe extern "C" fn Reset() -> ! {
} }
1 => { 1 => {
while !CORE1_ENABLED.get() { while !CORE1_ENABLED.get() {
spin_lock_yield(); asm::wfe();
} }
SP.write(&mut __stack1_start as *mut _ as u32); SP.write(&mut __stack1_start as *mut _ as u32);
boot_core1(); boot_core1();
@ -57,7 +57,6 @@ unsafe fn boot_core0() -> ! {
asm::dmb(); asm::dmb();
asm::dsb(); asm::dsb();
asm::enable_irq();
main_core0(); main_core0();
panic!("return from main"); panic!("return from main");
}); });
@ -78,7 +77,6 @@ unsafe fn boot_core1() -> ! {
asm::dmb(); asm::dmb();
asm::dsb(); asm::dsb();
asm::enable_irq();
main_core1(); main_core1();
panic!("return from main_core1"); panic!("return from main_core1");
}); });
@ -144,7 +142,6 @@ impl Core1 {
slcr.a9_cpu_rst_ctrl.modify(|_, w| w.a9_rst1(false)); slcr.a9_cpu_rst_ctrl.modify(|_, w| w.a9_rst1(false));
slcr.a9_cpu_rst_ctrl.modify(|_, w| w.a9_clkstop1(false)); slcr.a9_cpu_rst_ctrl.modify(|_, w| w.a9_clkstop1(false));
}); });
notify_spin_lock();
Core1 {} Core1 {}
} }

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@ -1,97 +1,55 @@
use alloc::alloc::Layout;
use core::alloc::GlobalAlloc; use core::alloc::GlobalAlloc;
use core::ptr::NonNull; use core::ptr::NonNull;
use libcortex_a9::{ use alloc::alloc::Layout;
mutex::Mutex,
regs::MPIDR
};
use libregister::RegisterR;
use linked_list_allocator::Heap; use linked_list_allocator::Heap;
#[cfg(not(feature = "alloc_core"))] use libcortex_a9::mutex::Mutex;
use libboard_zynq::ddr::DdrRam; use libboard_zynq::ddr::DdrRam;
#[global_allocator] #[global_allocator]
static ALLOCATOR: CortexA9Alloc = CortexA9Alloc( static ALLOCATOR: CortexA9Alloc = CortexA9Alloc(Mutex::new(Heap::empty()));
Mutex::new(Heap::empty()),
Mutex::new(Heap::empty()),
);
struct CortexA9Alloc(Mutex<Heap>, Mutex<Heap>); /// LockedHeap doesn't lock properly
struct CortexA9Alloc(Mutex<Heap>);
unsafe impl Sync for CortexA9Alloc {} unsafe impl Sync for CortexA9Alloc {}
unsafe impl GlobalAlloc for CortexA9Alloc { unsafe impl GlobalAlloc for CortexA9Alloc {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 { unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
if cfg!(not(feature = "alloc_core")) || MPIDR.read().cpu_id() == 0 { self.0.lock()
&self.0
} else {
&self.1
}
.lock()
.allocate_first_fit(layout) .allocate_first_fit(layout)
.ok() .ok()
.map_or(0 as *mut u8, |allocation| allocation.as_ptr()) .map_or(0 as *mut u8, |allocation| allocation.as_ptr())
} }
unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) { unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
if cfg!(not(feature = "alloc_core")) || MPIDR.read().cpu_id() == 0 { self.0.lock()
&self.0
} else {
&self.1
}
.lock()
.deallocate(NonNull::new_unchecked(ptr), layout) .deallocate(NonNull::new_unchecked(ptr), layout)
} }
} }
#[cfg(not(feature = "alloc_core"))]
pub fn init_alloc_ddr(ddr: &mut DdrRam) { pub fn init_alloc_ddr(ddr: &mut DdrRam) {
unsafe { unsafe {
ALLOCATOR ALLOCATOR.0.lock()
.0
.lock()
.init(ddr.ptr::<u8>() as usize, ddr.size()); .init(ddr.ptr::<u8>() as usize, ddr.size());
} }
} }
extern "C" { extern "C" {
static __heap0_start: usize; static __heap_start: usize;
static __heap0_end: usize; static __heap_end: usize;
#[cfg(feature = "alloc_core")]
static __heap1_start: usize;
#[cfg(feature = "alloc_core")]
static __heap1_end: usize;
} }
pub fn init_alloc_core0() { pub fn init_alloc_linker() {
unsafe { unsafe {
let start = &__heap0_start as *const usize as usize; let start = &__heap_start as *const usize as usize;
let end = &__heap0_end as *const usize as usize; let end = &__heap_end as *const usize as usize;
ALLOCATOR.0.lock().init(start, end - start); ALLOCATOR.0.lock()
.init(start, end - start);
} }
} }
#[cfg(feature = "alloc_core")]
pub fn init_alloc_core1() {
unsafe {
let start = &__heap1_start as *const usize as usize;
let end = &__heap1_end as *const usize as usize;
ALLOCATOR.1.lock().init(start, end - start);
}
}
#[alloc_error_handler] #[alloc_error_handler]
fn alloc_error(layout: core::alloc::Layout) -> ! { fn alloc_error(_: core::alloc::Layout) -> ! {
let id = MPIDR.read().cpu_id(); panic!("alloc_error")
let used = if cfg!(not(feature = "alloc_core")) || id == 0 {
ALLOCATOR.0.lock().used()
} else {
ALLOCATOR.1.lock().used()
};
panic!(
"Core {} alloc_error, layout: {:?}, used memory: {}",
id,
layout,
used
);
} }

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@ -19,6 +19,6 @@ stdenv.mkDerivation {
XARGO_RUST_SRC = "${rustcSrc}/src"; XARGO_RUST_SRC = "${rustcSrc}/src";
shellHook = '' shellHook = ''
echo "Run 'cargo xbuild --release -p experiments' to build." echo "Run 'cargo xbuild --release' to build."
''; '';
} }