embassy/embassy-nrf/src/qspi.rs

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Rust
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use crate::fmt::{assert, assert_eq, *};
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use core::future::Future;
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use crate::hal::gpio::{Output, Pin as GpioPin, Port as GpioPort, PushPull};
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use crate::interrupt::{OwnedInterrupt, QSPIInterrupt};
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use crate::pac::QSPI;
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pub use crate::pac::qspi::ifconfig0::ADDRMODE_A as AddressMode;
pub use crate::pac::qspi::ifconfig0::PPSIZE_A as WritePageSize;
pub use crate::pac::qspi::ifconfig0::READOC_A as ReadOpcode;
pub use crate::pac::qspi::ifconfig0::WRITEOC_A as WriteOpcode;
// TODO
// - config:
// - 32bit address mode
// - SPI freq
// - SPI sck delay
// - Deep power down mode (DPM)
// - SPI mode 3
// - activate/deactivate
// - set gpio in high drive
use embassy::flash::{Error, Flash};
use embassy::util::{DropBomb, Signal};
pub struct Pins {
pub sck: GpioPin<Output<PushPull>>,
pub csn: GpioPin<Output<PushPull>>,
pub io0: GpioPin<Output<PushPull>>,
pub io1: GpioPin<Output<PushPull>>,
pub io2: Option<GpioPin<Output<PushPull>>>,
pub io3: Option<GpioPin<Output<PushPull>>>,
}
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pub struct DeepPowerDownConfig {
pub enter_time: u16,
pub exit_time: u16,
}
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pub struct Config {
pub pins: Pins,
pub xip_offset: u32,
pub read_opcode: ReadOpcode,
pub write_opcode: WriteOpcode,
pub write_page_size: WritePageSize,
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pub deep_power_down: Option<DeepPowerDownConfig>,
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}
pub struct Qspi {
inner: QSPI,
}
fn port_bit(port: GpioPort) -> bool {
match port {
GpioPort::Port0 => false,
GpioPort::Port1 => true,
}
}
impl Qspi {
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pub fn new(qspi: QSPI, irq: QSPIInterrupt, config: Config) -> Self {
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qspi.psel.sck.write(|w| {
let pin = &config.pins.sck;
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
});
qspi.psel.csn.write(|w| {
let pin = &config.pins.csn;
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
});
qspi.psel.io0.write(|w| {
let pin = &config.pins.io0;
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
});
qspi.psel.io1.write(|w| {
let pin = &config.pins.io1;
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
});
qspi.psel.io2.write(|w| {
if let Some(ref pin) = config.pins.io2 {
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
} else {
w.connect().disconnected()
}
});
qspi.psel.io3.write(|w| {
if let Some(ref pin) = config.pins.io3 {
let w = unsafe { w.pin().bits(pin.pin()) };
let w = w.port().bit(port_bit(pin.port()));
w.connect().connected()
} else {
w.connect().disconnected()
}
});
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qspi.ifconfig0.write(|mut w| {
w = w.addrmode().variant(AddressMode::_24BIT);
if config.deep_power_down.is_some() {
w = w.dpmenable().enable();
} else {
w = w.dpmenable().disable();
}
w = w.ppsize().variant(config.write_page_size);
w = w.readoc().variant(config.read_opcode);
w = w.writeoc().variant(config.write_opcode);
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w
});
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if let Some(dpd) = &config.deep_power_down {
qspi.dpmdur.write(|mut w| unsafe {
w = w.enter().bits(dpd.enter_time);
w = w.exit().bits(dpd.exit_time);
w
})
}
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qspi.ifconfig1.write(|w| {
let w = unsafe { w.sckdelay().bits(80) };
let w = w.dpmen().exit();
let w = w.spimode().mode0();
let w = unsafe { w.sckfreq().bits(3) };
w
});
qspi.xipoffset
.write(|w| unsafe { w.xipoffset().bits(config.xip_offset) });
// Enable it
qspi.enable.write(|w| w.enable().enabled());
qspi.events_ready.reset();
qspi.tasks_activate.write(|w| w.tasks_activate().bit(true));
while qspi.events_ready.read().bits() == 0 {}
qspi.events_ready.reset();
// Enable READY interrupt
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SIGNAL.reset();
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qspi.intenset.write(|w| w.ready().set());
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irq.set_handler(irq_handler, core::ptr::null_mut());
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irq.unpend();
irq.enable();
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Self { inner: qspi }
}
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pub fn sleep(&mut self) {
info!("flash: sleeping");
info!("flash: state = {:?}", self.inner.status.read().bits());
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self.inner.ifconfig1.modify(|_, w| w.dpmen().enter());
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info!("flash: state = {:?}", self.inner.status.read().bits());
cortex_m::asm::delay(1000000);
info!("flash: state = {:?}", self.inner.status.read().bits());
self.inner
.tasks_deactivate
.write(|w| w.tasks_deactivate().set_bit());
}
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pub async fn custom_instruction<'a>(
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&'a mut self,
opcode: u8,
req: &'a [u8],
resp: &'a mut [u8],
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) -> Result<(), Error> {
let bomb = DropBomb::new();
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assert!(req.len() <= 8);
assert!(resp.len() <= 8);
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let mut dat0: u32 = 0;
let mut dat1: u32 = 0;
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for i in 0..4 {
if i < req.len() {
dat0 |= (req[i] as u32) << (i * 8);
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}
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}
for i in 0..4 {
if i + 4 < req.len() {
dat1 |= (req[i + 4] as u32) << (i * 8);
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}
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}
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let len = core::cmp::max(req.len(), resp.len()) as u8;
self.inner.cinstrdat0.write(|w| unsafe { w.bits(dat0) });
self.inner.cinstrdat1.write(|w| unsafe { w.bits(dat1) });
self.inner.events_ready.reset();
self.inner.cinstrconf.write(|w| {
let w = unsafe { w.opcode().bits(opcode) };
let w = unsafe { w.length().bits(len + 1) };
let w = w.lio2().bit(true);
let w = w.lio3().bit(true);
let w = w.wipwait().bit(true);
let w = w.wren().bit(true);
let w = w.lfen().bit(false);
let w = w.lfstop().bit(false);
w
});
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SIGNAL.wait().await;
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let dat0 = self.inner.cinstrdat0.read().bits();
let dat1 = self.inner.cinstrdat1.read().bits();
for i in 0..4 {
if i < resp.len() {
resp[i] = (dat0 >> (i * 8)) as u8;
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}
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}
for i in 0..4 {
if i + 4 < resp.len() {
resp[i] = (dat1 >> (i * 8)) as u8;
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}
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}
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bomb.defuse();
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Ok(())
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}
}
impl Flash for Qspi {
type ReadFuture<'a> = impl Future<Output = Result<(), Error>> + 'a;
type WriteFuture<'a> = impl Future<Output = Result<(), Error>> + 'a;
type ErasePageFuture<'a> = impl Future<Output = Result<(), Error>> + 'a;
fn read<'a>(&'a mut self, address: usize, data: &'a mut [u8]) -> Self::ReadFuture<'a> {
async move {
let bomb = DropBomb::new();
assert_eq!(data.as_ptr() as u32 % 4, 0);
assert_eq!(data.len() as u32 % 4, 0);
assert_eq!(address as u32 % 4, 0);
self.inner
.read
.src
.write(|w| unsafe { w.src().bits(address as u32) });
self.inner
.read
.dst
.write(|w| unsafe { w.dst().bits(data.as_ptr() as u32) });
self.inner
.read
.cnt
.write(|w| unsafe { w.cnt().bits(data.len() as u32) });
self.inner.events_ready.reset();
self.inner
.tasks_readstart
.write(|w| w.tasks_readstart().bit(true));
SIGNAL.wait().await;
bomb.defuse();
Ok(())
}
}
fn write<'a>(&'a mut self, address: usize, data: &'a [u8]) -> Self::WriteFuture<'a> {
async move {
let bomb = DropBomb::new();
assert_eq!(data.as_ptr() as u32 % 4, 0);
assert_eq!(data.len() as u32 % 4, 0);
assert_eq!(address as u32 % 4, 0);
self.inner
.write
.src
.write(|w| unsafe { w.src().bits(data.as_ptr() as u32) });
self.inner
.write
.dst
.write(|w| unsafe { w.dst().bits(address as u32) });
self.inner
.write
.cnt
.write(|w| unsafe { w.cnt().bits(data.len() as u32) });
self.inner.events_ready.reset();
self.inner
.tasks_writestart
.write(|w| w.tasks_writestart().bit(true));
SIGNAL.wait().await;
bomb.defuse();
Ok(())
}
}
fn erase<'a>(&'a mut self, address: usize) -> Self::ErasePageFuture<'a> {
async move {
let bomb = DropBomb::new();
assert_eq!(address as u32 % 4096, 0);
self.inner
.erase
.ptr
.write(|w| unsafe { w.ptr().bits(address as u32) });
self.inner.erase.len.write(|w| w.len()._4kb());
self.inner.events_ready.reset();
self.inner
.tasks_erasestart
.write(|w| w.tasks_erasestart().bit(true));
SIGNAL.wait().await;
bomb.defuse();
Ok(())
}
}
fn size(&self) -> usize {
256 * 4096 // TODO
}
fn read_size(&self) -> usize {
4 // TODO
}
fn write_size(&self) -> usize {
4 // TODO
}
fn erase_size(&self) -> usize {
4096 // TODO
}
}
static SIGNAL: Signal<()> = Signal::new();
unsafe fn irq_handler(_ctx: *mut ()) {
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let p = crate::pac::Peripherals::steal().QSPI;
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if p.events_ready.read().events_ready().bit_is_set() {
p.events_ready.reset();
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info!("qspi ready");
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SIGNAL.signal(());
}
}