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Expose data transfer timeout and implement configuration for BusWidth one

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This commit is contained in:
Thales Fragoso 2021-05-13 22:23:05 -03:00
parent 359aaa5aeb
commit ad720f83df
2 changed files with 213 additions and 83 deletions
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3
embassy-stm32/Cargo.toml
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@ -24,12 +24,13 @@ embedded-sdmmc = { git = "https://github.com/thalesfragoso/embedded-sdmmc-rs", b
regex = "1.4.6"
[features]
default = ["stm32h750vb", "defmt-debug", "defmt"]
default = ["stm32h750vb", "defmt-debug", "defmt", "sdmmc-rs"]
defmt-trace = [ ]
defmt-debug = [ ]
defmt-info = [ ]
defmt-warn = [ ]
defmt-error = [ ]
sdmmc-rs = ["embedded-sdmmc"]
# BEGIN GENERATED FEATURES
stm32f401cb = [ "_dma", "_dma_v2", "_exti", "_exti_v1", "_gpio", "_gpio_v2", "_spi", "_spi_v1", "_stm32f4", "_syscfg", "_syscfg_f4", "_usart", "_usart_v1",]

293
embassy-stm32/src/sdmmc_v2.rs
View File

@ -5,7 +5,6 @@ use core::task::Poll;
use embassy::interrupt::InterruptExt;
use embassy::util::{AtomicWaker, OnDrop, Unborrow};
use embassy_extras::unborrow;
use embedded_sdmmc::{Block, BlockCount, BlockDevice, BlockIdx};
use futures::future::poll_fn;
use sdio_host::{BusWidth, CardCapacity, CardStatus, CurrentState, SDStatus, CID, CSD, OCR, SCR};
@ -151,6 +150,8 @@ pub struct Sdmmc<'d, T: Instance, P: Pins<T>> {
signalling: Signalling,
/// Card
card: Option<Card>,
/// The timeout to be set for data transfers, in card bus clock periods
data_transfer_timeout: u32,
}
impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
@ -164,6 +165,7 @@ impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
irq: impl Unborrow<Target = T::Interrupt>,
hclk: Hertz,
kernel_clk: Hertz,
data_transfer_timeout: u32,
) -> Self {
unborrow!(irq, pins);
pins.configure();
@ -184,6 +186,7 @@ impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
clock,
signalling: Default::default(),
card: None,
data_transfer_timeout,
}
}
@ -202,6 +205,7 @@ impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
self.ker_ck,
&mut self.clock,
T::state(),
self.data_transfer_timeout,
)
.await
}
@ -218,7 +222,15 @@ impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
// NOTE(unsafe) DataBlock uses align 4
let buf = unsafe { &mut *((&mut buffer.0) as *mut [u8; 512] as *mut [u32; 128]) };
inner.read_block(block_idx, buf, card_capacity, state).await
inner
.read_block(
block_idx,
buf,
card_capacity,
state,
self.data_transfer_timeout,
)
.await
}
pub async fn write_block(&mut self, block_idx: u32, buffer: &DataBlock) -> Result<(), Error> {
@ -228,7 +240,9 @@ impl<'d, T: Instance, P: Pins<T>> Sdmmc<'d, T, P> {
// NOTE(unsafe) DataBlock uses align 4
let buf = unsafe { &*((&buffer.0) as *const [u8; 512] as *const [u32; 128]) };
inner.write_block(block_idx, buf, card, state).await
inner
.write_block(block_idx, buf, card, state, self.data_transfer_timeout)
.await
}
/// Get a reference to the initialized card
@ -302,6 +316,7 @@ impl SdmmcInner {
ker_ck: Hertz,
clock: &mut Hertz,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<(), Error> {
let regs = self.0;
@ -371,7 +386,8 @@ impl SdmmcInner {
card.csd = csd.into();
self.select_card(Some(&card))?;
self.get_scr(&mut card, waker_reg).await?;
self.get_scr(&mut card, waker_reg, data_transfer_timeout)
.await?;
// Set bus width
let (width, acmd_arg) = match bus_width {
@ -404,12 +420,13 @@ impl SdmmcInner {
}
// Read status
self.read_sd_status(&mut card, waker_reg).await?;
self.read_sd_status(&mut card, waker_reg, data_transfer_timeout)
.await?;
if freq.0 > 25_000_000 {
// Switch to SDR25
*signalling = self
.switch_signalling_mode(Signalling::SDR25, waker_reg)
.switch_signalling_mode(Signalling::SDR25, waker_reg, data_transfer_timeout)
.await?;
if *signalling == Signalling::SDR25 {
@ -422,7 +439,8 @@ impl SdmmcInner {
}
}
// Read status after signalling change
self.read_sd_status(&mut card, waker_reg).await?;
self.read_sd_status(&mut card, waker_reg, data_transfer_timeout)
.await?;
old_card.replace(card);
}
@ -435,6 +453,7 @@ impl SdmmcInner {
buffer: &mut [u32; 128],
capacity: CardCapacity,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<(), Error> {
// Always read 1 block of 512 bytes
// SDSC cards are byte addressed hence the blockaddress is in multiples of 512 bytes
@ -449,7 +468,13 @@ impl SdmmcInner {
let buf_addr = buffer as *mut [u32; 128] as u32;
unsafe {
self.prepare_datapath_transfer(buf_addr, 512, 9, Dir::CardToHost);
self.prepare_datapath_transfer(
buf_addr,
512,
9,
Dir::CardToHost,
data_transfer_timeout,
);
self.data_interrupts(true);
}
self.cmd(Cmd::read_single_block(address), true)?;
@ -485,6 +510,7 @@ impl SdmmcInner {
buffer: &[u32; 128],
card: &mut Card,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<(), Error> {
// Always read 1 block of 512 bytes
// SDSC cards are byte addressed hence the blockaddress is in multiples of 512 bytes
@ -499,7 +525,13 @@ impl SdmmcInner {
let buf_addr = buffer as *const [u32; 128] as u32;
unsafe {
self.prepare_datapath_transfer(buf_addr, 512, 9, Dir::HostToCard);
self.prepare_datapath_transfer(
buf_addr,
512,
9,
Dir::HostToCard,
data_transfer_timeout,
);
self.data_interrupts(true);
}
self.cmd(Cmd::write_single_block(address), true)?;
@ -527,16 +559,18 @@ impl SdmmcInner {
regs.idmactrlr().modify(|w| w.set_idmaen(false));
}
// TODO: Make this configurable
let mut timeout: u32 = 0xFFFF_FFFF;
let mut timeout: u32 = 0x00FF_FFFF;
// Try to read card status (ACMD13)
while timeout > 0 {
match self.read_sd_status(card, waker_reg).await {
match self
.read_sd_status(card, waker_reg, data_transfer_timeout)
.await
{
Ok(_) => return Ok(()),
Err(Error::Timeout) => (), // Try again
Err(e) => return Err(e),
}
timeout -= 1;
}
Err(Error::SoftwareTimeout)
@ -573,6 +607,7 @@ impl SdmmcInner {
length_bytes: u32,
block_size: u8,
direction: Dir,
data_transfer_timeout: u32,
) {
self::assert!(block_size <= 14, "Block size up to 2^14 bytes");
let regs = self.0;
@ -588,8 +623,8 @@ impl SdmmcInner {
// NOTE(unsafe) We have exclusive access to the regisers
// TODO: Make this configurable
regs.dtimer().write(|w| w.set_datatime(5_000_000));
regs.dtimer()
.write(|w| w.set_datatime(data_transfer_timeout));
regs.dlenr().write(|w| w.set_datalength(length_bytes));
regs.idmabase0r().write(|w| w.set_idmabase0(buffer_addr));
@ -637,6 +672,7 @@ impl SdmmcInner {
&self,
signalling: Signalling,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<Signalling, Error> {
// NB PLSS v7_10 4.3.10.4: "the use of SET_BLK_LEN command is not
// necessary"
@ -659,7 +695,13 @@ impl SdmmcInner {
let on_drop = OnDrop::new(|| unsafe { self.on_drop() });
unsafe {
self.prepare_datapath_transfer(status_addr, 64, 6, Dir::CardToHost);
self.prepare_datapath_transfer(
status_addr,
64,
6,
Dir::CardToHost,
data_transfer_timeout,
);
self.data_interrupts(true);
}
self.cmd(Cmd::cmd6(set_function), true)?; // CMD6
@ -724,7 +766,12 @@ impl SdmmcInner {
}
/// Reads the SD Status (ACMD13)
async fn read_sd_status(&self, card: &mut Card, waker_reg: &AtomicWaker) -> Result<(), Error> {
async fn read_sd_status(
&self,
card: &mut Card,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<(), Error> {
let rca = card.rca;
self.cmd(Cmd::set_block_length(64), false)?; // CMD16
self.cmd(Cmd::app_cmd(rca << 16), false)?; // APP
@ -737,7 +784,13 @@ impl SdmmcInner {
let on_drop = OnDrop::new(|| unsafe { self.on_drop() });
unsafe {
self.prepare_datapath_transfer(status_addr, 64, 6, Dir::CardToHost);
self.prepare_datapath_transfer(
status_addr,
64,
6,
Dir::CardToHost,
data_transfer_timeout,
);
self.data_interrupts(true);
}
self.cmd(Cmd::card_status(0), true)?;
@ -832,7 +885,12 @@ impl SdmmcInner {
}
}
async fn get_scr(&self, card: &mut Card, waker_reg: &AtomicWaker) -> Result<(), Error> {
async fn get_scr(
&self,
card: &mut Card,
waker_reg: &AtomicWaker,
data_transfer_timeout: u32,
) -> Result<(), Error> {
// Read the the 64-bit SCR register
self.cmd(Cmd::set_block_length(8), false)?; // CMD16
self.cmd(Cmd::app_cmd(card.rca << 16), false)?;
@ -845,7 +903,7 @@ impl SdmmcInner {
let on_drop = OnDrop::new(move || unsafe { self.on_drop() });
unsafe {
self.prepare_datapath_transfer(scr_addr, 8, 3, Dir::CardToHost);
self.prepare_datapath_transfer(scr_addr, 8, 3, Dir::CardToHost, data_transfer_timeout);
self.data_interrupts(true);
}
self.cmd(Cmd::cmd51(), true)?;
@ -905,36 +963,26 @@ impl SdmmcInner {
w.set_cmdtrans(data);
});
// TODO: Check if this timeout is necessary
let mut timeout: u32 = 0xFFFF_FFFF;
let mut status;
if cmd.resp == Response::None {
// Wait for CMDSENT or a timeout
while {
status = regs.star().read();
!(status.ctimeout() || status.cmdsent()) && timeout > 0
} {
timeout -= 1;
}
!(status.ctimeout() || status.cmdsent())
} {}
} else {
// Wait for CMDREND or CCRCFAIL or a timeout
while {
status = regs.star().read();
!(status.ctimeout() || status.cmdrend() || status.ccrcfail()) && timeout > 0
} {
timeout -= 1;
}
!(status.ctimeout() || status.cmdrend() || status.ccrcfail())
} {}
}
if status.ctimeout() {
return Err(Error::Timeout);
} else if timeout == 0 {
return Err(Error::SoftwareTimeout);
} else if status.ccrcfail() {
return Err(Error::Crc);
}
Ok(())
}
}
@ -1321,11 +1369,76 @@ where
const BUSWIDTH: BusWidth = BusWidth::One;
fn configure(&mut self) {
self::todo!()
let (clk_pin, cmd_pin, d0_pin) = self;
cortex_m::interrupt::free(|_| unsafe {
// clk
let block = clk_pin.block();
let n = clk_pin.pin() as usize;
let afr_num = CLK::AF_NUM;
configure_pin(block, n, afr_num, false);
// cmd
let block = cmd_pin.block();
let n = cmd_pin.pin() as usize;
let afr_num = CMD::AF_NUM;
configure_pin(block, n, afr_num, true);
// d0
let block = d0_pin.block();
let n = d0_pin.pin() as usize;
let afr_num = D0::AF_NUM;
configure_pin(block, n, afr_num, true);
});
}
fn deconfigure(&mut self) {
self::todo!()
use pac::gpio::vals::{Moder, Ospeedr, Pupdr};
let (clk_pin, cmd_pin, d0_pin) = self;
cortex_m::interrupt::free(|_| unsafe {
// clk
let n = clk_pin.pin().into();
clk_pin
.block()
.moder()
.modify(|w| w.set_moder(n, Moder::ANALOG));
clk_pin
.block()
.ospeedr()
.modify(|w| w.set_ospeedr(n, Ospeedr::LOWSPEED));
// cmd
let n = cmd_pin.pin().into();
cmd_pin
.block()
.moder()
.modify(|w| w.set_moder(n, Moder::ANALOG));
cmd_pin
.block()
.ospeedr()
.modify(|w| w.set_ospeedr(n, Ospeedr::LOWSPEED));
cmd_pin
.block()
.pupdr()
.modify(|w| w.set_pupdr(n, Pupdr::FLOATING));
// d0
let n = d0_pin.pin().into();
d0_pin
.block()
.moder()
.modify(|w| w.set_moder(n, Moder::ANALOG));
d0_pin
.block()
.ospeedr()
.modify(|w| w.set_ospeedr(n, Ospeedr::LOWSPEED));
d0_pin
.block()
.pupdr()
.modify(|w| w.set_pupdr(n, Pupdr::FLOATING));
});
}
}
@ -1359,63 +1472,79 @@ macro_rules! impl_sdmmc_pin {
};
}
impl<'d, T: Instance, P: Pins<T>> BlockDevice for Sdmmc<'d, T, P> {
type Error = Error;
#[rustfmt::skip]
type ReadFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
#[rustfmt::skip]
type WriteFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
#[cfg(feature = "sdmmc-rs")]
mod sdmmc_rs {
use super::*;
use embedded_sdmmc::{Block, BlockCount, BlockDevice, BlockIdx};
fn read<'a>(
&'a mut self,
blocks: &'a mut [Block],
start_block_idx: BlockIdx,
_reason: &str,
) -> Self::ReadFuture<'a> {
async move {
let card_capacity = self.card()?.card_type;
let inner = T::inner();
let state = T::state();
let mut address = start_block_idx.0;
impl<'d, T: Instance, P: Pins<T>> BlockDevice for Sdmmc<'d, T, P> {
type Error = Error;
#[rustfmt::skip]
type ReadFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
#[rustfmt::skip]
type WriteFuture<'a> where Self: 'a = impl Future<Output = Result<(), Self::Error>> + 'a;
for block in blocks.iter_mut() {
let block: &mut [u8; 512] = &mut block.contents;
fn read<'a>(
&'a mut self,
blocks: &'a mut [Block],
start_block_idx: BlockIdx,
_reason: &str,
) -> Self::ReadFuture<'a> {
async move {
let card_capacity = self.card()?.card_type;
let inner = T::inner();
let state = T::state();
let mut address = start_block_idx.0;
// NOTE(unsafe) Block uses align(4)
let buf = unsafe { &mut *(block as *mut [u8; 512] as *mut [u32; 128]) };
inner.read_block(address, buf, card_capacity, state).await?;
address += 1;
for block in blocks.iter_mut() {
let block: &mut [u8; 512] = &mut block.contents;
// NOTE(unsafe) Block uses align(4)
let buf = unsafe { &mut *(block as *mut [u8; 512] as *mut [u32; 128]) };
inner
.read_block(
address,
buf,
card_capacity,
state,
self.data_transfer_timeout,
)
.await?;
address += 1;
}
Ok(())
}
Ok(())
}
}
fn write<'a>(
&'a mut self,
blocks: &'a [Block],
start_block_idx: BlockIdx,
) -> Self::WriteFuture<'a> {
async move {
let card = self.card.as_mut().ok_or(Error::NoCard)?;
let inner = T::inner();
let state = T::state();
let mut address = start_block_idx.0;
fn write<'a>(
&'a mut self,
blocks: &'a [Block],
start_block_idx: BlockIdx,
) -> Self::WriteFuture<'a> {
async move {
let card = self.card.as_mut().ok_or(Error::NoCard)?;
let inner = T::inner();
let state = T::state();
let mut address = start_block_idx.0;
for block in blocks.iter() {
let block: &[u8; 512] = &block.contents;
for block in blocks.iter() {
let block: &[u8; 512] = &block.contents;
// NOTE(unsafe) DataBlock uses align 4
let buf = unsafe { &*(block as *const [u8; 512] as *const [u32; 128]) };
inner.write_block(address, buf, card, state).await?;
address += 1;
// NOTE(unsafe) DataBlock uses align 4
let buf = unsafe { &*(block as *const [u8; 512] as *const [u32; 128]) };
inner
.write_block(address, buf, card, state, self.data_transfer_timeout)
.await?;
address += 1;
}
Ok(())
}
Ok(())
}
}
fn num_blocks(&self) -> Result<BlockCount, Self::Error> {
let card = self.card()?;
let count = card.csd.block_count();
Ok(BlockCount(count))
fn num_blocks(&self) -> Result<BlockCount, Self::Error> {
let card = self.card()?;
let count = card.csd.block_count();
Ok(BlockCount(count))
}
}
}