2019-11-21 07:14:09 +08:00
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//! Quad-SPI Flash Controller
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2019-11-28 10:02:51 +08:00
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use core::marker::PhantomData;
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2019-11-30 09:48:39 +08:00
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use crate::regs::{RegisterR, RegisterW, RegisterRW};
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2019-11-21 07:14:09 +08:00
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use super::slcr;
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use super::clocks::CpuClocks;
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2019-12-05 06:56:38 +08:00
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mod regs;
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2019-12-05 08:15:14 +08:00
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mod bytes;
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pub use bytes::{BytesTransferExt, BytesTransfer};
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2019-11-21 07:14:09 +08:00
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2019-11-23 08:59:24 +08:00
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const FLASH_BAUD_RATE: u32 = 50_000_000;
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2019-11-30 09:48:39 +08:00
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const SINGLE_CAPACITY: u32 = 16 * 1024 * 1024;
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2019-11-23 08:59:24 +08:00
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2019-12-12 07:11:42 +08:00
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/// Instruction: Read Configure Register
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const INST_RDCR: u8 = 0x35;
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2019-12-12 08:02:09 +08:00
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/// Instruction: Read Status Register-1
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const INST_RDSR1: u8 = 0x05;
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2019-12-12 07:11:42 +08:00
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/// Instruction: Read Identification
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2019-12-07 09:11:50 +08:00
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const INST_RDID: u8 = 0x9F;
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2019-12-12 07:17:34 +08:00
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#[derive(Clone)]
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pub enum SpiWord {
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W8(u8),
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W16(u16),
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W24(u32),
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W32(u32),
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}
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impl From<u8> for SpiWord {
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fn from(x: u8) -> Self {
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SpiWord::W8(x)
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}
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}
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impl From<u16> for SpiWord {
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fn from(x: u16) -> Self {
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SpiWord::W16(x)
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}
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}
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impl From<u32> for SpiWord {
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fn from(x: u32) -> Self {
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SpiWord::W32(x)
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}
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}
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2019-12-12 07:13:02 +08:00
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/// Memory-mapped mode
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2019-11-28 10:02:51 +08:00
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pub struct LinearAddressing;
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2019-12-12 07:13:02 +08:00
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/// Manual I/O mode
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2019-11-30 09:48:39 +08:00
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pub struct Manual;
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2019-11-28 10:02:51 +08:00
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2019-11-21 07:14:09 +08:00
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/// Flash Interface Driver
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2019-11-23 08:59:24 +08:00
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///
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/// For 2x Spansion S25FL128SAGMFIR01
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2019-11-28 10:02:51 +08:00
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pub struct Flash<MODE> {
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2019-11-21 07:14:09 +08:00
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regs: &'static mut regs::RegisterBlock,
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2019-11-28 10:02:51 +08:00
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_mode: PhantomData<MODE>,
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2019-11-21 07:14:09 +08:00
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}
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2019-11-30 06:48:08 +08:00
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impl<MODE> Flash<MODE> {
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fn transition<TO>(self) -> Flash<TO> {
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Flash {
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regs: self.regs,
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_mode: PhantomData,
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}
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}
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2019-12-05 06:56:38 +08:00
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fn disable_interrupts(&mut self) {
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self.regs.intr_dis.write(
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regs::IntrDis::zeroed()
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.rx_overflow(true)
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.tx_fifo_not_full(true)
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.tx_fifo_full(true)
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.rx_fifo_not_empty(true)
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.rx_fifo_full(true)
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.tx_fifo_underflow(true)
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);
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}
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fn enable_interrupts(&mut self) {
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self.regs.intr_en.write(
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regs::IntrEn::zeroed()
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.rx_overflow(true)
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.tx_fifo_not_full(true)
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.tx_fifo_full(true)
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.rx_fifo_not_empty(true)
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.rx_fifo_full(true)
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.tx_fifo_underflow(true)
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);
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}
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fn clear_rx_fifo(&self) {
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while self.regs.intr_status.read().rx_fifo_not_empty() {
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let _ = self.regs.rx_data.read();
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}
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}
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fn clear_interrupt_status(&mut self) {
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self.regs.intr_status.write(
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regs::IntrStatus::zeroed()
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.rx_overflow(true)
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.tx_fifo_underflow(true)
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);
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}
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2019-12-12 07:17:34 +08:00
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fn wait_tx_fifo_flush(&mut self) {
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while !self.regs.intr_status.read().tx_fifo_not_full() {}
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}
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2019-11-30 06:48:08 +08:00
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}
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2019-11-28 10:02:51 +08:00
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impl Flash<()> {
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2019-11-21 07:14:09 +08:00
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pub fn new(clock: u32) -> Self {
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Self::enable_clocks(clock);
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Self::setup_signals();
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Self::reset();
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let regs = regs::RegisterBlock::qspi();
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2019-11-28 10:02:51 +08:00
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let mut flash = Flash { regs, _mode: PhantomData };
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2019-11-23 08:59:24 +08:00
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flash.configure((FLASH_BAUD_RATE - 1 + clock) / FLASH_BAUD_RATE);
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2019-11-21 07:14:09 +08:00
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flash
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}
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fn enable_clocks(clock: u32) {
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let io_pll = CpuClocks::get().io;
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let divisor = ((clock - 1 + io_pll) / clock)
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.max(1).min(63) as u8;
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slcr::RegisterBlock::unlocked(|slcr| {
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slcr.lqspi_clk_ctrl.write(
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slcr::LqspiClkCtrl::zeroed()
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.src_sel(slcr::PllSource::IoPll)
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.divisor(divisor)
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.clkact(true)
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);
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});
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}
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fn setup_signals() {
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2019-11-23 08:59:24 +08:00
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slcr::RegisterBlock::unlocked(|slcr| {
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// 1. Configure MIO pin 1 for chip select 0 output.
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slcr.mio_pin_01.write(
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slcr::MioPin01::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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.pullup(true)
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);
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// Configure MIO pins 2 through 5 for I/O.
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slcr.mio_pin_02.write(
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slcr::MioPin02::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_03.write(
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slcr::MioPin03::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_04.write(
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slcr::MioPin04::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_05.write(
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slcr::MioPin05::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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// 3. Configure MIO pin 6 for serial clock 0 output.
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slcr.mio_pin_06.write(
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slcr::MioPin06::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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2019-11-28 10:22:26 +08:00
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// Option: Add Second Device Chip Select
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// 4. Configure MIO pin 0 for chip select 1 output.
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slcr.mio_pin_00.write(
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slcr::MioPin00::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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.pullup(true)
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);
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// Option: Add Second Serial Clock
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// 5. Configure MIO pin 9 for serial clock 1 output.
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slcr.mio_pin_09.write(
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slcr::MioPin09::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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// Option: Add 4-bit Data
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// 6. Configure MIO pins 10 through 13 for I/O.
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slcr.mio_pin_10.write(
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slcr::MioPin10::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_11.write(
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slcr::MioPin11::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_12.write(
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slcr::MioPin12::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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slcr.mio_pin_13.write(
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slcr::MioPin13::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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// Option: Add Feedback Output Clock
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// 7. Configure MIO pin 8 for feedback clock.
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slcr.mio_pin_08.write(
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slcr::MioPin08::zeroed()
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.l0_sel(true)
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.io_type(slcr::IoBufferType::Lvcmos18)
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);
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2019-11-23 08:59:24 +08:00
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});
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2019-11-21 07:14:09 +08:00
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}
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fn reset() {
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slcr::RegisterBlock::unlocked(|slcr| {
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slcr.lqspi_rst_ctrl.write(
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slcr::LqspiRstCtrl::zeroed()
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.ref_rst(true)
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.cpu1x_rst(true)
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);
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slcr.lqspi_rst_ctrl.write(
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slcr::LqspiRstCtrl::zeroed()
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);
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});
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}
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2019-11-23 08:59:24 +08:00
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fn configure(&mut self, divider: u32) {
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2019-12-05 06:56:38 +08:00
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// Disable
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self.regs.enable.write(
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regs::Enable::zeroed()
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);
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2019-12-03 09:41:49 +08:00
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self.disable_interrupts();
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2019-12-05 06:56:38 +08:00
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self.regs.lqspi_cfg.write(
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regs::LqspiCfg::zeroed()
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);
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2019-12-03 09:41:49 +08:00
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self.clear_rx_fifo();
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2019-12-05 06:56:38 +08:00
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self.clear_interrupt_status();
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2019-12-03 09:41:49 +08:00
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2019-11-23 08:59:24 +08:00
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// for a baud_rate_div=1 LPBK_DLY_ADJ would be required
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let mut baud_rate_div = 2u32;
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while baud_rate_div < 7 && 2u32.pow(1 + baud_rate_div) < divider {
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baud_rate_div += 1;
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}
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2019-11-28 10:02:51 +08:00
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self.regs.config.write(regs::Config::zeroed()
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2019-11-23 08:59:24 +08:00
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.baud_rate_div(baud_rate_div as u8)
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2019-11-21 07:14:09 +08:00
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.mode_sel(true)
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.leg_flsh(true)
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2019-12-05 06:56:38 +08:00
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.holdb_dr(true)
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2019-12-03 09:41:49 +08:00
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// 32 bits TX FIFO width
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2019-11-21 07:14:09 +08:00
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.fifo_width(0b11)
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);
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2019-12-03 09:41:49 +08:00
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// Initialize RX/TX pipes thresholds
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unsafe {
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2019-12-10 09:46:25 +08:00
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self.regs.rx_thres.write(1);
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2019-12-03 09:41:49 +08:00
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self.regs.tx_thres.write(1);
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}
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}
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2019-11-28 10:02:51 +08:00
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pub fn linear_addressing_mode(self) -> Flash<LinearAddressing> {
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// Set manual start enable to auto mode.
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// Assert the chip select.
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self.regs.config.modify(|_, w| w
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.man_start_en(false)
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.pcs(false)
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2019-12-05 06:56:38 +08:00
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.manual_cs(false)
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2019-11-28 10:02:51 +08:00
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);
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self.regs.lqspi_cfg.write(regs::LqspiCfg::zeroed()
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2019-11-30 06:37:54 +08:00
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// Quad I/O Fast Read
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.inst_code(0xEB)
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.mode_bits(0xFF)
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.dummy_byte(0x2)
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.mode_en(true)
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// 2 devices
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.two_mem(true)
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2019-12-05 06:56:38 +08:00
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.u_page(false)
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2019-11-30 06:37:54 +08:00
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// Linear Addressing Mode
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2019-11-23 08:59:24 +08:00
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.lq_mode(true)
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);
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2019-11-28 10:02:51 +08:00
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2019-12-05 06:56:38 +08:00
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self.regs.enable.write(
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regs::Enable::zeroed()
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.spi_en(true)
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);
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2019-11-28 10:02:51 +08:00
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2019-11-30 06:48:08 +08:00
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self.transition()
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2019-11-23 08:59:24 +08:00
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}
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2019-11-30 09:48:39 +08:00
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pub fn manual_mode(self, chip_index: usize) -> Flash<Manual> {
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self.regs.config.modify(|_, w| w
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.man_start_en(true)
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.manual_cs(true)
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2019-12-10 09:45:05 +08:00
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.endian(true)
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2019-11-30 09:48:39 +08:00
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);
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self.regs.lqspi_cfg.write(regs::LqspiCfg::zeroed()
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.mode_bits(0xFF)
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.dummy_byte(0x2)
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.mode_en(true)
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// 2 devices
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.two_mem(true)
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2019-12-10 09:50:44 +08:00
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.sep_bus(true)
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2019-11-30 09:48:39 +08:00
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.u_page(chip_index != 0)
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2019-12-05 06:56:38 +08:00
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// Manual I/O mode
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.lq_mode(false)
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2019-11-30 09:48:39 +08:00
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);
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self.transition()
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}
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2019-11-28 10:02:51 +08:00
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}
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2019-11-23 08:59:24 +08:00
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2019-11-28 10:02:51 +08:00
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impl Flash<LinearAddressing> {
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2019-11-30 06:48:08 +08:00
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/// Stop linear addressing mode
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pub fn stop(self) -> Flash<()> {
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self.regs.enable.modify(|_, w| w.spi_en(false));
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// De-assert chip select.
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self.regs.config.modify(|_, w| w.pcs(true));
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self.transition()
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}
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2019-11-23 08:59:24 +08:00
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pub fn ptr<T>(&mut self) -> *mut T {
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0xFC00_0000 as *mut _
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}
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2019-11-30 06:48:08 +08:00
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pub fn size(&self) -> usize {
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2019-11-30 09:48:39 +08:00
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2 * (SINGLE_CAPACITY as usize)
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}
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}
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impl Flash<Manual> {
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pub fn stop(self) -> Flash<()> {
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self.transition()
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}
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2019-12-07 09:11:50 +08:00
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/// Read Configuration Register
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2019-12-05 06:56:38 +08:00
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pub fn rdcr(&mut self) -> u8 {
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2019-12-10 09:50:44 +08:00
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let args = Some((INST_RDCR as u32) << 24);
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self.transfer(args.into_iter(), 4)
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2019-12-05 08:15:14 +08:00
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.bytes_transfer().skip(1)
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.next().unwrap() as u8
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2019-12-05 06:56:38 +08:00
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}
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2019-12-12 08:02:09 +08:00
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/// Read Status Register-1
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pub fn rdsr1(&mut self) -> u8 {
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let args = Some(INST_RDSR1 as u8);
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self.transfer(args.into_iter(), 2)
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.bytes_transfer().skip(1)
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.next().unwrap()
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}
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2019-12-07 09:11:50 +08:00
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/// Read Identifiaction
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2019-12-12 07:17:34 +08:00
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pub fn rdid(&mut self) -> core::iter::Skip<BytesTransfer<Transfer<core::option::IntoIter<u32>, u32>>> {
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2019-12-10 09:50:44 +08:00
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let args = Some((INST_RDID as u32) << 24);
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self.transfer(args.into_iter(), 0x44)
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2019-12-05 08:15:14 +08:00
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.bytes_transfer().skip(1)
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2019-12-05 06:56:38 +08:00
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}
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2019-12-10 09:50:44 +08:00
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/// Read flash data
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2019-12-12 07:17:34 +08:00
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pub fn read(&mut self, offset: u32, len: usize
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) -> core::iter::Take<core::iter::Skip<BytesTransfer<Transfer<core::option::IntoIter<u32>, u32>>>>
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{
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let args = Some(((INST_READ as u32) << 24) | (offset as u32));
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2019-12-10 09:50:44 +08:00
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self.transfer(args.into_iter(), len + 6)
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.bytes_transfer().skip(6).take(len)
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}
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2019-12-12 07:17:34 +08:00
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pub fn transfer<'s: 't, 't, Args, W>(&'s mut self, args: Args, len: usize) -> Transfer<'t, Args, W>
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2019-12-05 08:15:14 +08:00
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where
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2019-12-12 07:17:34 +08:00
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Args: Iterator<Item = W>,
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W: Into<SpiWord>,
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2019-12-05 08:15:14 +08:00
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{
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2019-12-10 09:50:44 +08:00
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Transfer::new(self, args, len)
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2019-12-05 06:56:38 +08:00
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}
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}
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2019-12-12 07:17:34 +08:00
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pub struct Transfer<'a, Args: Iterator<Item = W>, W: Into<SpiWord>> {
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2019-12-05 08:15:14 +08:00
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flash: &'a mut Flash<Manual>,
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2019-12-05 06:56:38 +08:00
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args: Args,
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2019-12-10 09:50:44 +08:00
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sent: usize,
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received: usize,
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len: usize,
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2019-12-05 06:56:38 +08:00
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}
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2019-12-12 07:17:34 +08:00
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impl<'a, Args: Iterator<Item = W>, W: Into<SpiWord>> Transfer<'a, Args, W> {
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pub fn new(flash: &'a mut Flash<Manual>, args: Args, len: usize) -> Self {
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2019-12-07 09:11:50 +08:00
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flash.regs.config.modify(|_, w| w.pcs(false));
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flash.regs.enable.write(
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regs::Enable::zeroed()
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.spi_en(true)
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);
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2019-12-05 08:15:14 +08:00
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2019-12-10 09:50:44 +08:00
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let mut xfer = Transfer {
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flash,
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args,
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sent: 0,
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received: 0,
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len,
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};
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xfer.fill_tx_fifo();
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xfer.flash.regs.config.modify(|_, w| w.man_start_com(true));
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xfer
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}
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2019-12-07 09:48:55 +08:00
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2019-12-10 09:50:44 +08:00
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fn fill_tx_fifo(&mut self) {
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while self.sent < self.len && !self.flash.regs.intr_status.read().tx_fifo_full() {
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2019-12-12 07:17:34 +08:00
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let arg = self.args.next()
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.map(|n| n.into())
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.unwrap_or(SpiWord::W32(0));
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match arg {
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SpiWord::W32(w) => {
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// println!("txd0 {:08X}", w);
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unsafe {
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self.flash.regs.txd0.write(w);
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}
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self.sent += 4;
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}
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// Only txd0 can be used without flushing
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_ => {
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if !self.flash.regs.intr_status.read().tx_fifo_not_full() {
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// Flush if neccessary
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self.flash.regs.config.modify(|_, w| w.man_start_com(true));
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self.flash.wait_tx_fifo_flush();
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}
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match arg {
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SpiWord::W8(w) => {
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// println!("txd1 {:02X}", w);
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unsafe {
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self.flash.regs.txd1.write(w.into());
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}
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self.sent += 1;
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}
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SpiWord::W16(w) => {
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unsafe {
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self.flash.regs.txd2.write(w.into());
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}
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self.sent += 2;
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}
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SpiWord::W24(w) => {
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unsafe {
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self.flash.regs.txd3.write(w);
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}
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self.sent += 3;
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}
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SpiWord::W32(_) => unreachable!(),
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}
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self.flash.regs.config.modify(|_, w| w.man_start_com(true));
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self.flash.wait_tx_fifo_flush();
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}
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2019-11-30 09:48:39 +08:00
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}
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}
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2019-12-10 09:50:44 +08:00
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}
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2019-12-05 06:56:38 +08:00
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2019-12-10 09:50:44 +08:00
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fn can_read(&mut self) -> bool {
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self.flash.regs.intr_status.read().rx_fifo_not_empty()
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}
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fn read(&mut self) -> u32 {
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let rx = self.flash.regs.rx_data.read();
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self.received += 4;
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rx
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2019-11-30 09:48:39 +08:00
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}
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2019-12-05 06:56:38 +08:00
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}
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2019-12-12 07:17:34 +08:00
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impl<'a, Args: Iterator<Item = W>, W: Into<SpiWord>> Drop for Transfer<'a, Args, W> {
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2019-12-05 06:56:38 +08:00
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fn drop(&mut self) {
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2019-12-07 09:11:50 +08:00
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// Discard remaining rx_data
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2019-12-10 09:50:44 +08:00
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while self.can_read() {
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self.read();
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2019-12-07 09:11:50 +08:00
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}
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// Stop
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self.flash.regs.enable.write(
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regs::Enable::zeroed()
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.spi_en(false)
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);
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2019-12-05 08:15:14 +08:00
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self.flash.regs.config.modify(|_, w| w
|
2019-12-07 09:11:50 +08:00
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.pcs(true)
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.man_start_com(false)
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2019-12-05 06:56:38 +08:00
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);
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}
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}
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2019-12-12 07:17:34 +08:00
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impl<'a, Args: Iterator<Item = W>, W: Into<SpiWord>> Iterator for Transfer<'a, Args, W> {
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2019-12-05 08:15:14 +08:00
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type Item = u32;
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2019-12-05 06:56:38 +08:00
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2019-12-05 08:15:14 +08:00
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fn next<'s>(&'s mut self) -> Option<u32> {
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2019-12-10 09:50:44 +08:00
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if self.received >= self.len {
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return None;
|
2019-12-05 08:15:14 +08:00
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}
|
2019-11-30 09:48:39 +08:00
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2019-12-10 09:50:44 +08:00
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self.fill_tx_fifo();
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while !self.can_read() {}
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Some(self.read())
|
2019-11-30 06:48:08 +08:00
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}
|
2019-11-21 07:14:09 +08:00
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}
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