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Issue 1974 add sai/mod file

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This commit is contained in:
Tyler Gilbert 2023-09-29 21:08:07 -05:00
parent ce91fb2bfc
commit 92df87781d
1 changed files with 888 additions and 0 deletions
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embassy-stm32/src/sai/mod.rs Normal file
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#![macro_use]
use embassy_embedded_hal::SetConfig;
use embassy_hal_internal::{into_ref, PeripheralRef};
use crate::dma::{Channel, ReadableRingBuffer, TransferOptions, WritableRingBuffer};
use crate::gpio::sealed::{AFType, Pin as _};
use crate::gpio::AnyPin;
use crate::pac::sai::{vals, Sai as Regs};
use crate::rcc::RccPeripheral;
use crate::time::Hertz;
use crate::{peripherals, Peripheral};
pub use crate::dma::word;
#[derive(Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum Error {
NotATransmitter,
NotAReceiver,
}
#[derive(Copy, Clone)]
pub enum SyncBlock {
None,
Sai1BlockA,
Sai1BlockB,
Sai2BlockA,
Sai2BlockB,
}
#[derive(Copy, Clone)]
pub enum SyncIn {
None,
ChannelZero,
ChannelOne,
}
#[derive(Copy, Clone)]
pub enum Mode {
Master,
Slave,
}
#[derive(Copy, Clone)]
enum TxRx {
Transmiter,
Receiver,
}
impl Mode {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
const fn mode(&self, tx_rx: TxRx) -> vals::Mode {
match tx_rx {
TxRx::Transmiter => match self {
Mode::Master => vals::Mode::MASTERTX,
Mode::Slave => vals::Mode::SLAVETX,
},
TxRx::Receiver => match self {
Mode::Master => vals::Mode::MASTERRX,
Mode::Slave => vals::Mode::SLAVERX,
},
}
}
}
#[derive(Copy, Clone)]
pub enum SlotSize {
DataSize,
/// 16 bit data length on 16 bit wide channel
Channel16,
/// 16 bit data length on 32 bit wide channel
Channel32,
}
impl SlotSize {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn slotsz(&self) -> vals::Slotsz {
match self {
SlotSize::DataSize => vals::Slotsz::DATASIZE,
SlotSize::Channel16 => vals::Slotsz::BIT16,
SlotSize::Channel32 => vals::Slotsz::BIT32,
}
}
}
#[derive(Copy, Clone)]
pub enum DataSize {
Data8,
Data10,
Data16,
Data20,
Data24,
Data32,
}
impl DataSize {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn ds(&self) -> vals::Ds {
match self {
DataSize::Data8 => vals::Ds::BIT8,
DataSize::Data10 => vals::Ds::BIT10,
DataSize::Data16 => vals::Ds::BIT16,
DataSize::Data20 => vals::Ds::BIT20,
DataSize::Data24 => vals::Ds::BIT24,
DataSize::Data32 => vals::Ds::BIT32,
}
}
}
#[derive(Copy, Clone)]
pub enum FifoThreshold {
Empty,
Quarter,
Half,
ThreeQuarters,
Full,
}
impl FifoThreshold {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn fth(&self) -> vals::Fth {
match self {
FifoThreshold::Empty => vals::Fth::EMPTY,
FifoThreshold::Quarter => vals::Fth::QUARTER1,
FifoThreshold::Half => vals::Fth::QUARTER2,
FifoThreshold::ThreeQuarters => vals::Fth::QUARTER3,
FifoThreshold::Full => vals::Fth::FULL,
}
}
}
#[derive(Copy, Clone)]
pub enum FifoLevel {
Empty,
FirstQuarter,
SecondQuarter,
ThirdQuarter,
FourthQuarter,
Full,
}
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
impl From<vals::Flvl> for FifoLevel {
fn from(flvl: vals::Flvl) -> Self {
match flvl {
vals::Flvl::EMPTY => FifoLevel::Empty,
vals::Flvl::QUARTER1 => FifoLevel::FirstQuarter,
vals::Flvl::QUARTER2 => FifoLevel::SecondQuarter,
vals::Flvl::QUARTER3 => FifoLevel::ThirdQuarter,
vals::Flvl::QUARTER4 => FifoLevel::FourthQuarter,
vals::Flvl::FULL => FifoLevel::Full,
_ => FifoLevel::Empty,
}
}
}
#[derive(Copy, Clone)]
pub enum MuteDetection {
NoMute,
Mute,
}
#[derive(Copy, Clone)]
pub enum MuteValue {
Zero,
LastValue,
}
impl MuteValue {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn muteval(&self) -> vals::Muteval {
match self {
MuteValue::Zero => vals::Muteval::SENDZERO,
MuteValue::LastValue => vals::Muteval::SENDLAST,
}
}
}
#[derive(Copy, Clone)]
pub enum OverUnderStatus {
NoError,
OverUnderRunDetected,
}
#[derive(Copy, Clone)]
pub enum Protocol {
Free,
Spdif,
Ac97,
}
impl Protocol {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn prtcfg(&self) -> vals::Prtcfg {
match self {
Protocol::Free => vals::Prtcfg::FREE,
Protocol::Spdif => vals::Prtcfg::SPDIF,
Protocol::Ac97 => vals::Prtcfg::AC97,
}
}
}
#[derive(Copy, Clone)]
pub enum SyncEnable {
Asynchronous,
/// Syncs with the other A/B sub-block within the SAI unit
Internal,
/// Syncs with a sub-block in the other SAI unit - use set_sync_output() and set_sync_input()
External,
}
impl SyncEnable {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn syncen(&self) -> vals::Syncen {
match self {
SyncEnable::Asynchronous => vals::Syncen::ASYNCHRONOUS,
SyncEnable::Internal => vals::Syncen::INTERNAL,
SyncEnable::External => vals::Syncen::EXTERNAL,
}
}
}
#[derive(Copy, Clone, PartialEq)]
pub enum StereoMono {
Stereo,
Mono,
}
impl StereoMono {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn mono(&self) -> vals::Mono {
match self {
StereoMono::Stereo => vals::Mono::STEREO,
StereoMono::Mono => vals::Mono::MONO,
}
}
}
#[derive(Copy, Clone)]
pub enum BitOrder {
LsbFirst,
MsbFirst,
}
impl BitOrder {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn lsbfirst(&self) -> vals::Lsbfirst {
match self {
BitOrder::LsbFirst => vals::Lsbfirst::LSBFIRST,
BitOrder::MsbFirst => vals::Lsbfirst::MSBFIRST,
}
}
}
#[derive(Copy, Clone)]
pub enum FrameSyncOffset {
/// This is used in modes other than standard I2S phillips mode
OnFirstBit,
/// This is used in standard I2S phillips mode
BeforeFirstBit,
}
impl FrameSyncOffset {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn fsoff(&self) -> vals::Fsoff {
match self {
FrameSyncOffset::OnFirstBit => vals::Fsoff::ONFIRST,
FrameSyncOffset::BeforeFirstBit => vals::Fsoff::BEFOREFIRST,
}
}
}
#[derive(Copy, Clone)]
pub enum FrameSyncPolarity {
ActiveLow,
ActiveHigh,
}
impl FrameSyncPolarity {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn fspol(&self) -> vals::Fspol {
match self {
FrameSyncPolarity::ActiveLow => vals::Fspol::FALLINGEDGE,
FrameSyncPolarity::ActiveHigh => vals::Fspol::RISINGEDGE,
}
}
}
#[derive(Copy, Clone)]
pub enum FrameSyncDefinition {
StartOfFrame,
ChannelIdentification,
}
impl FrameSyncDefinition {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn fsdef(&self) -> bool {
match self {
FrameSyncDefinition::StartOfFrame => false,
FrameSyncDefinition::ChannelIdentification => true,
}
}
}
#[derive(Copy, Clone)]
pub enum ClockStrobe {
Falling,
Rising,
}
impl ClockStrobe {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn ckstr(&self) -> vals::Ckstr {
match self {
ClockStrobe::Falling => vals::Ckstr::FALLINGEDGE,
ClockStrobe::Rising => vals::Ckstr::RISINGEDGE,
}
}
}
#[derive(Copy, Clone)]
pub enum ComplementFormat {
OnesComplement,
TwosComplement,
}
impl ComplementFormat {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn cpl(&self) -> vals::Cpl {
match self {
ComplementFormat::OnesComplement => vals::Cpl::ONESCOMPLEMENT,
ComplementFormat::TwosComplement => vals::Cpl::TWOSCOMPLEMENT,
}
}
}
#[derive(Copy, Clone)]
pub enum Companding {
None,
MuLaw,
ALaw,
}
impl Companding {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn comp(&self) -> vals::Comp {
match self {
Companding::None => vals::Comp::NOCOMPANDING,
Companding::MuLaw => vals::Comp::MULAW,
Companding::ALaw => vals::Comp::ALAW,
}
}
}
#[derive(Copy, Clone)]
pub enum OutputDrive {
OnStart,
Immediately,
}
impl OutputDrive {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn outdriv(&self) -> vals::Outdriv {
match self {
OutputDrive::OnStart => vals::Outdriv::ONSTART,
OutputDrive::Immediately => vals::Outdriv::IMMEDIATELY,
}
}
}
#[derive(Copy, Clone, PartialEq)]
pub enum MasterClockDivider {
MasterClockDisabled,
Div1,
Div2,
Div4,
Div6,
Div8,
Div10,
Div12,
Div14,
Div16,
Div18,
Div20,
Div22,
Div24,
Div26,
Div28,
Div30,
}
impl MasterClockDivider {
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
pub const fn mckdiv(&self) -> u8 {
match self {
MasterClockDivider::MasterClockDisabled => 0,
MasterClockDivider::Div1 => 0,
MasterClockDivider::Div2 => 1,
MasterClockDivider::Div4 => 2,
MasterClockDivider::Div6 => 3,
MasterClockDivider::Div8 => 4,
MasterClockDivider::Div10 => 5,
MasterClockDivider::Div12 => 6,
MasterClockDivider::Div14 => 7,
MasterClockDivider::Div16 => 8,
MasterClockDivider::Div18 => 9,
MasterClockDivider::Div20 => 10,
MasterClockDivider::Div22 => 11,
MasterClockDivider::Div24 => 12,
MasterClockDivider::Div26 => 13,
MasterClockDivider::Div28 => 14,
MasterClockDivider::Div30 => 15,
}
}
}
/// [`SAI`] configuration.
#[non_exhaustive]
#[derive(Copy, Clone)]
pub struct Config {
pub mode: Mode,
pub sync_enable: SyncEnable,
pub is_sync_output: bool,
pub protocol: Protocol,
pub slot_size: SlotSize,
pub slot_count: word::U4,
pub slot_enable: u16,
pub first_bit_offset: word::U5,
pub data_size: DataSize,
pub stereo_mono: StereoMono,
pub bit_order: BitOrder,
pub frame_sync_offset: FrameSyncOffset,
pub frame_sync_polarity: FrameSyncPolarity,
pub frame_sync_active_level_length: word::U7,
pub frame_sync_definition: FrameSyncDefinition,
pub frame_length: u8,
pub clock_strobe: ClockStrobe,
pub output_drive: OutputDrive,
pub master_clock_divider: MasterClockDivider,
pub is_high_impedenane_on_inactive_slot: bool,
pub fifo_threshold: FifoThreshold,
pub companding: Companding,
pub complement_format: ComplementFormat,
pub mute_value: MuteValue,
pub mute_detection_counter: word::U5,
}
impl Default for Config {
fn default() -> Self {
Self {
mode: Mode::Master,
is_sync_output: false,
sync_enable: SyncEnable::Asynchronous,
protocol: Protocol::Free,
slot_size: SlotSize::DataSize,
slot_count: word::U4(2),
first_bit_offset: word::U5(0),
slot_enable: 0b11,
data_size: DataSize::Data16,
stereo_mono: StereoMono::Stereo,
bit_order: BitOrder::LsbFirst,
frame_sync_offset: FrameSyncOffset::BeforeFirstBit,
frame_sync_polarity: FrameSyncPolarity::ActiveLow,
frame_sync_active_level_length: word::U7(16),
frame_sync_definition: FrameSyncDefinition::ChannelIdentification,
frame_length: 32,
master_clock_divider: MasterClockDivider::MasterClockDisabled,
clock_strobe: ClockStrobe::Rising,
output_drive: OutputDrive::Immediately,
is_high_impedenane_on_inactive_slot: false,
fifo_threshold: FifoThreshold::ThreeQuarters,
companding: Companding::None,
complement_format: ComplementFormat::TwosComplement,
mute_value: MuteValue::Zero,
mute_detection_counter: word::U5(4),
}
}
}
impl Config {
pub fn new_i2s() -> Self {
return Default::default();
}
pub fn new_msb_first() -> Self {
Self {
bit_order: BitOrder::MsbFirst,
frame_sync_offset: FrameSyncOffset::OnFirstBit,
..Default::default()
}
}
}
#[derive(Copy, Clone)]
pub enum SubBlock {
A = 0,
B = 1,
}
enum RingBuffer<'d, C: Channel, W: word::Word> {
Writable(WritableRingBuffer<'d, C, W>),
Readable(ReadableRingBuffer<'d, C, W>),
}
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
fn wdr<W: word::Word>(w: crate::pac::sai::Sai, sub_block: SubBlock) -> *mut W {
let ch = w.ch(sub_block as usize);
ch.dr().as_ptr() as _
}
pub struct Sai<'d, T: Instance, C: Channel, W: word::Word> {
_peri: PeripheralRef<'d, T>,
sd: Option<PeripheralRef<'d, AnyPin>>,
fs: Option<PeripheralRef<'d, AnyPin>>,
sck: Option<PeripheralRef<'d, AnyPin>>,
mclk: Option<PeripheralRef<'d, AnyPin>>,
ring_buffer: RingBuffer<'d, C, W>,
sub_block: SubBlock,
}
impl<'d, T: Instance, C: Channel, W: word::Word> Sai<'d, T, C, W> {
fn get_transmitter_af_types(mode: Mode) -> (AFType, AFType) {
match mode {
Mode::Master => (AFType::OutputPushPull, AFType::OutputPushPull),
Mode::Slave => (AFType::OutputPushPull, AFType::Input),
}
}
pub fn new_asynchronous_transmitter_with_mclk_a(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckAPin<T>> + 'd,
sd: impl Peripheral<P = impl SdAPin<T>> + 'd,
fs: impl Peripheral<P = impl FsAPin<T>> + 'd,
mclk: impl Peripheral<P = impl MclkAPin<T>> + 'd,
dma: impl Peripheral<P = C> + 'd,
dma_buf: &'d mut [W],
mut config: Config,
) -> Self
where
C: Channel + DmaA<T>,
{
into_ref!(mclk);
mclk.set_as_af(mclk.af_num(), AFType::OutputPushPull);
mclk.set_speed(crate::gpio::Speed::VeryHigh);
if config.master_clock_divider == MasterClockDivider::MasterClockDisabled {
config.master_clock_divider = MasterClockDivider::Div1;
}
Self::new_asynchronous_transmitter_a(peri, sck, sd, fs, dma, dma_buf, config)
}
pub fn new_asynchronous_transmitter_a(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckAPin<T>> + 'd,
sd: impl Peripheral<P = impl SdAPin<T>> + 'd,
fs: impl Peripheral<P = impl FsAPin<T>> + 'd,
dma: impl Peripheral<P = C> + 'd,
dma_buf: &'d mut [W],
config: Config,
) -> Self
where
C: Channel + DmaA<T>,
{
into_ref!(peri, dma, sck, sd, fs);
let (sd_af_type, ck_af_type) = Self::get_transmitter_af_types(config.mode);
sd.set_as_af(sd.af_num(), sd_af_type);
sd.set_speed(crate::gpio::Speed::VeryHigh);
sck.set_as_af(sck.af_num(), ck_af_type);
sck.set_speed(crate::gpio::Speed::VeryHigh);
fs.set_as_af(fs.af_num(), ck_af_type);
fs.set_speed(crate::gpio::Speed::VeryHigh);
let request = dma.request();
let opts = TransferOptions {
half_transfer_ir: true,
circular: true,
..Default::default()
};
let sub_block = SubBlock::A;
Self::new_inner(
peri,
sub_block,
Some(sck.map_into()),
None,
Some(sd.map_into()),
Some(fs.map_into()),
RingBuffer::Writable(unsafe {
WritableRingBuffer::new_write(dma, request, wdr(T::REGS, sub_block), dma_buf, opts)
}),
config,
)
}
pub fn new_asynchronous_transmitter_with_mclk_b(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckBPin<T>> + 'd,
sd: impl Peripheral<P = impl SdBPin<T>> + 'd,
fs: impl Peripheral<P = impl FsBPin<T>> + 'd,
mclk: impl Peripheral<P = impl MclkBPin<T>> + 'd,
dma: impl Peripheral<P = C> + 'd,
dma_buf: &'d mut [W],
mut config: Config,
) -> Self
where
C: Channel + DmaB<T>,
{
into_ref!(mclk);
mclk.set_as_af(mclk.af_num(), AFType::OutputPushPull);
mclk.set_speed(crate::gpio::Speed::VeryHigh);
if config.master_clock_divider == MasterClockDivider::MasterClockDisabled {
config.master_clock_divider = MasterClockDivider::Div1;
}
Self::new_asynchronous_transmitter_b(peri, sck, sd, fs, dma, dma_buf, config)
}
pub fn new_asynchronous_transmitter_b(
peri: impl Peripheral<P = T> + 'd,
sck: impl Peripheral<P = impl SckBPin<T>> + 'd,
sd: impl Peripheral<P = impl SdBPin<T>> + 'd,
fs: impl Peripheral<P = impl FsBPin<T>> + 'd,
dma: impl Peripheral<P = C> + 'd,
dma_buf: &'d mut [W],
config: Config,
) -> Self
where
C: Channel + DmaB<T>,
{
into_ref!(dma, peri, sck, sd, fs);
let (sd_af_type, ck_af_type) = Self::get_transmitter_af_types(config.mode);
sd.set_as_af(sd.af_num(), sd_af_type);
sd.set_speed(crate::gpio::Speed::VeryHigh);
sck.set_as_af(sck.af_num(), ck_af_type);
sck.set_speed(crate::gpio::Speed::VeryHigh);
fs.set_as_af(fs.af_num(), ck_af_type);
fs.set_speed(crate::gpio::Speed::VeryHigh);
let request = dma.request();
let opts = TransferOptions {
half_transfer_ir: true,
..Default::default()
};
let sub_block = SubBlock::B;
Self::new_inner(
peri,
sub_block,
Some(sck.map_into()),
None,
Some(sd.map_into()),
Some(fs.map_into()),
RingBuffer::Writable(unsafe {
WritableRingBuffer::new_write(dma, request, wdr(T::REGS, sub_block), dma_buf, opts)
}),
config,
)
}
pub fn start(self: &mut Self) {
match self.ring_buffer {
RingBuffer::Writable(ref mut rb) => {
rb.start();
}
RingBuffer::Readable(ref mut rb) => {
rb.start();
}
}
}
fn is_transmitter(ring_buffer: &RingBuffer<C, W>) -> bool {
match ring_buffer {
RingBuffer::Writable(_) => true,
_ => false,
}
}
fn new_inner(
peri: impl Peripheral<P = T> + 'd,
sub_block: SubBlock,
sck: Option<PeripheralRef<'d, AnyPin>>,
mclk: Option<PeripheralRef<'d, AnyPin>>,
sd: Option<PeripheralRef<'d, AnyPin>>,
fs: Option<PeripheralRef<'d, AnyPin>>,
ring_buffer: RingBuffer<'d, C, W>,
config: Config,
) -> Self {
T::enable();
T::reset();
#[cfg(any(sai_v4))]
{
/// Not totally clear from the datasheet if this is right
/// This is only used if using SyncEnable::External
let value: u8 = if T::REGS.as_ptr() == stm32_metapac::SAI1.as_ptr() {
1 //this is SAI1, so sync with SAI2
} else {
0 //this is SAI2, so sync with SAI1
};
T::REGS.gcr().modify(|w| {
w.set_syncin(value);
});
if config.is_sync_output {
let syncout: u8 = match sub_block {
SubBlock::A => 0b01,
SubBlock::B => 0b10,
};
T::REGS.gcr().modify(|w| {
w.set_syncout(syncout);
});
}
}
#[cfg(any(sai_v1, sai_v2, sai_v3, sai_v4))]
{
let ch = T::REGS.ch(sub_block as usize);
ch.cr1().modify(|w| {
w.set_mode(config.mode.mode(if Self::is_transmitter(&ring_buffer) {
TxRx::Transmiter
} else {
TxRx::Receiver
}));
w.set_prtcfg(config.protocol.prtcfg());
w.set_ds(config.data_size.ds());
w.set_lsbfirst(config.bit_order.lsbfirst());
w.set_ckstr(config.clock_strobe.ckstr());
w.set_syncen(config.sync_enable.syncen());
w.set_mono(config.stereo_mono.mono());
w.set_outdriv(config.output_drive.outdriv());
w.set_mckdiv(config.master_clock_divider.mckdiv());
w.set_nodiv(
if config.master_clock_divider == MasterClockDivider::MasterClockDisabled {
vals::Nodiv::NODIV
} else {
vals::Nodiv::MASTERCLOCK
},
);
w.set_dmaen(true);
});
ch.cr2().modify(|w| {
w.set_fth(config.fifo_threshold.fth());
w.set_comp(config.companding.comp());
w.set_cpl(config.complement_format.cpl());
w.set_muteval(config.mute_value.muteval());
w.set_mutecnt(config.mute_detection_counter.0 as u8);
w.set_tris(config.is_high_impedenane_on_inactive_slot);
});
ch.frcr().modify(|w| {
w.set_fsoff(config.frame_sync_offset.fsoff());
w.set_fspol(config.frame_sync_polarity.fspol());
w.set_fsdef(config.frame_sync_definition.fsdef());
w.set_fsall(config.frame_sync_active_level_length.0 as u8);
w.set_frl(config.frame_length - 1);
});
ch.slotr().modify(|w| {
w.set_nbslot(config.slot_count.0 as u8 - 1);
w.set_slotsz(config.slot_size.slotsz());
w.set_fboff(config.first_bit_offset.0 as u8);
w.set_sloten(vals::Sloten(config.slot_enable as u16));
});
ch.cr1().modify(|w| w.set_saien(true));
}
Self {
_peri: peri.into_ref(),
sub_block,
sck,
mclk,
sd,
fs,
ring_buffer,
}
}
fn flush(&mut self) {
let ch = T::REGS.ch(self.sub_block as usize);
ch.cr1().modify(|w| w.set_saien(false));
#[cfg(any(sai_v1, sai_v2))]
{
ch.cr2().modify(|w| w.set_fflush(vals::Fflush::FLUSH));
}
#[cfg(any(sai_v3, sai_v4))]
{
ch.cr2().modify(|w| w.set_fflush(true));
}
ch.cr1().modify(|w| w.set_saien(true));
}
fn set_mute(&mut self, value: bool) {
let ch = T::REGS.ch(self.sub_block as usize);
ch.cr2().modify(|w| w.set_mute(value));
}
/// Reconfigures it with the supplied config.
pub fn reconfigure(&mut self, config: Config) {}
pub fn get_current_config(&self) -> Config {
Config::default()
}
pub async fn write(&mut self, data: &[W]) -> Result<(), Error> {
match &mut self.ring_buffer {
RingBuffer::Writable(buffer) => {
buffer.write_exact(data).await;
Ok(())
}
_ => return Err(Error::NotATransmitter),
}
}
pub async fn read(&mut self, data: &mut [W]) -> Result<(), Error> {
match &mut self.ring_buffer {
RingBuffer::Readable(buffer) => {
buffer.read_exact(data).await;
Ok(())
}
_ => Err(Error::NotAReceiver),
}
}
}
impl<'d, T: Instance, C: Channel, W: word::Word> Drop for Sai<'d, T, C, W> {
fn drop(&mut self) {
let ch = T::REGS.ch(self.sub_block as usize);
ch.cr1().modify(|w| w.set_saien(false));
self.fs.as_ref().map(|x| x.set_as_disconnected());
self.sd.as_ref().map(|x| x.set_as_disconnected());
self.sck.as_ref().map(|x| x.set_as_disconnected());
self.mclk.as_ref().map(|x| x.set_as_disconnected());
}
}
pub(crate) mod sealed {
use super::*;
pub trait Instance {
const REGS: Regs;
}
}
pub trait Word: word::Word {}
pub trait Instance: Peripheral<P = Self> + sealed::Instance + RccPeripheral {}
pin_trait!(SckAPin, Instance);
pin_trait!(SckBPin, Instance);
pin_trait!(FsAPin, Instance);
pin_trait!(FsBPin, Instance);
pin_trait!(SdAPin, Instance);
pin_trait!(SdBPin, Instance);
pin_trait!(MclkAPin, Instance);
pin_trait!(MclkBPin, Instance);
dma_trait!(DmaA, Instance);
dma_trait!(DmaB, Instance);
foreach_peripheral!(
(sai, $inst:ident) => {
impl sealed::Instance for peripherals::$inst {
const REGS: Regs = crate::pac::$inst;
}
impl Instance for peripherals::$inst {}
};
);
impl<'d, T: Instance, C: Channel, W: word::Word> SetConfig for Sai<'d, T, C, W> {
type Config = Config;
fn set_config(&mut self, config: &Self::Config) {
self.reconfigure(*config);
}
}