i2c: fix GPIO register mapping, I2C control & EEPROM write operations
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f7d3135ec7
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16b2df91ca
@ -1,20 +1,24 @@
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use super::I2C;
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use crate::time::Microseconds;
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use crate::time::Milliseconds;
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use embedded_hal::timer::CountDown;
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pub struct EEPROM<'a> {
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i2c: &'a mut I2C,
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port: u8,
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address: u8,
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page_size: u8,
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count_down: crate::timer::global::CountDown<Milliseconds>
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}
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impl<'a> EEPROM<'a> {
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#[cfg(feature = "target_zc706")]
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pub fn new(i2c: &'a mut I2C) -> Self {
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pub fn new(i2c: &'a mut I2C, page_size: u8) -> Self {
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EEPROM {
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i2c: i2c,
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port: 2,
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address: 0b1010100,
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page_size: page_size,
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count_down: unsafe { crate::timer::GlobalTimer::get() }.countdown()
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}
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}
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@ -45,30 +49,49 @@ impl<'a> EEPROM<'a> {
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Ok(())
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}
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/// Page write
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/// Smart multi-page writing
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/// Using the "Page Write" function of an EEPROM, the memory region for each transaction
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/// (i.e. from byte `addr` to byte `addr+buf.len()`) should fit under each page
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/// (i.e. `addr+buf.len()` < `addr/self.page_size+1`); otherwise, a roll-oever occurs,
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/// where bytes beyond the page end. This smart function takes care of the scenario to avoid
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/// any roll-over when writing ambiguous memory regions.
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pub fn write(&mut self, addr: u8, buf: &[u8]) -> Result<(), &'static str> {
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self.select()?;
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self.i2c.start()?;
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self.i2c.write(self.address << 1)?;
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self.i2c.write(addr)?;
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let buf_len = buf.len();
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let mut pb: u8 = addr % self.page_size;
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for (i, byte) in buf.iter().enumerate() {
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if (i == 0) || (pb == 0) {
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self.i2c.start()?;
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self.i2c.write(self.address << 1)?;
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self.i2c.write(addr + (i as u8))?;
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}
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self.i2c.write(*byte)?;
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}
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pb += 1;
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self.i2c.stop()?;
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self.poll(1_000_000_000)?;
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if (i == buf_len-1) || (pb == self.page_size) {
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self.i2c.stop()?;
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self.poll(1_000)?;
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pb = 0;
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}
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}
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Ok(())
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}
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/// Poll
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pub fn poll(&mut self, timeout_us: u64) -> Result<(), &'static str> {
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pub fn poll(&mut self, timeout_ms: u64) -> Result<(), &'static str> {
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self.select()?;
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self.i2c.count_down.start(Microseconds(timeout_us));
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while !self.i2c.write((self.address << 1) | 1)? {
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if !self.i2c.count_down.waiting() {
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self.count_down.start(Milliseconds(timeout_ms));
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loop {
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self.i2c.start()?;
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let ack = self.i2c.write(self.address << 1)?;
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self.i2c.stop()?;
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if ack {
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break
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};
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if !self.count_down.waiting() {
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return Err("I2C polling timeout")
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}
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}
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@ -10,8 +10,11 @@ use libregister::{RegisterR, RegisterRW, RegisterW};
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const INVALID_BUS: &'static str = "Invalid I2C bus";
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#[cfg(feature = "target_zc706")]
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const GPIO_OUTPUT_MASK: u16 = 0xFFFF - 0x000C;
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pub struct I2C {
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regs: regs::RegisterBlock,
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regs: regs::RegisterWrapper,
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count_down: super::timer::global::CountDown<Microseconds>
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}
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@ -23,17 +26,21 @@ impl I2C {
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// SCL
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slcr.mio_pin_50.write(
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slcr::MioPin50::zeroed()
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.l3_sel(0b000) // GPIO 50
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.io_type(slcr::IoBufferType::Lvcmos25)
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.l3_sel(0b000) // as GPIO 50
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.io_type(slcr::IoBufferType::Lvcmos18)
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.pullup(true)
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.disable_rcvr(true)
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);
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// SDA
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slcr.mio_pin_51.write(
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slcr::MioPin51::zeroed()
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.l3_sel(0b00) // GPIO 51
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.io_type(slcr::IoBufferType::Lvcmos25)
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.l3_sel(0b000) // as GPIO 51
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.io_type(slcr::IoBufferType::Lvcmos18)
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.pullup(true)
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.disable_rcvr(true)
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);
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// Reset
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slcr.gpio_rst_ctrl.reset_gpio();
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});
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Self::ctor_common()
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@ -42,27 +49,30 @@ impl I2C {
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fn ctor_common() -> Self {
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// Setup register block
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let clocks = Clocks::get();
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let mut self_ = Self {
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regs: unsafe { regs::RegisterBlock::new() },
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let self_ = Self {
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regs: regs::RegisterWrapper::new(),
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count_down: unsafe { super::timer::GlobalTimer::get() }.countdown()
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};
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// Setup GPIO output mask
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self_.regs.gpio_output_mask.modify(|_, w| {
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w.scl_m(true).sda_m(true)
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w.mask(GPIO_OUTPUT_MASK)
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});
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// Setup GPIO driver direction
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self_.regs.gpio_direction.modify(|_, w| {
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w.scl(true).sda(true)
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});
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self_.init();
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self_
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}
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/// Delay for I2C operations, simple wrapper for nb.
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fn delay(&mut self, us: u64) {
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fn delay_us(&mut self, us: u64) {
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self.count_down.start(Microseconds(us));
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nb::block!(self.count_down.wait()).unwrap();
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}
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fn half_period(&mut self) { self.delay(100) }
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fn half_period(&mut self) { self.delay_us(100) }
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fn sda_i(&mut self) -> bool {
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self.regs.gpio_input.read().sda()
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@ -171,7 +181,7 @@ impl I2C {
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for bit in (0..8).rev() {
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self.sda_oe(data & (1 << bit) == 0);
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self.half_period();
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self.scl_o(false);
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self.scl_oe(false);
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self.half_period();
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self.scl_oe(true);
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}
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@ -1,6 +1,9 @@
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use volatile_register::{RO, WO, RW};
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use libregister::{register, register_bit, register_bits};
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use libregister::{
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register, register_at,
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register_bit, register_bits
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};
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// With reference to:
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//
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@ -20,76 +23,71 @@ use libregister::{register, register_bit, register_bits};
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// Current compatibility:
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// zc706: GPIO 50, 51 == SCL, SDA
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#[repr(C)]
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pub struct RegisterBlock {
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pub struct RegisterWrapper {
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pub gpio_output_mask: &'static mut GPIOOutputMask,
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pub gpio_input: &'static mut GPIOInput,
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pub gpio_direction: &'static mut GPIODirection,
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pub gpio_output_enable: &'static mut GPIOOutputEnable,
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}
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impl RegisterBlock {
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pub unsafe fn new() -> Self {
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impl RegisterWrapper {
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pub fn new() -> Self {
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Self {
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gpio_output_mask: GPIOOutputMask::new(),
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gpio_input: GPIOInput::new(),
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gpio_direction: GPIODirection::new(),
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gpio_output_enable: GPIOOutputEnable::new()
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}
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}
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}
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impl GPIOOutputMask {
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#[cfg(feature = "target_zc706")]
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pub unsafe fn new() -> &'static mut Self {
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&mut *(0xE000A00C as *mut _)
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}
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}
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impl GPIOInput {
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#[cfg(feature = "target_zc706")]
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pub unsafe fn new() -> &'static mut Self {
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&mut *(0xE000A064 as *mut _)
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}
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}
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impl GPIOOutputEnable {
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#[cfg(feature = "target_zc706")]
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pub unsafe fn new() -> &'static mut Self {
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&mut *(0xE000A248 as *mut _)
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}
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}
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// MASK_DATA_1_MSW:
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// Maskable output data for MIO[53:48]
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register!(gpio_output_mask, GPIOOutputMask, RW, u32);
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#[cfg(feature = "target_zc706")]
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register_at!(GPIOOutputMask, 0xE000A00C, new);
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// Output for SCL
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_mask, scl_o, 2);
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// Output for SDA
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_mask, sda_o, 3);
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// Mask for SCL; set to 1 to write to output
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// Mask for keeping bits except SCL and SDA unchanged
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_mask, scl_m, 18);
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// Mask for SDA; set to 1 to write to output
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_mask, sda_m, 19);
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register_bits!(gpio_output_mask, mask, u16, 16, 31);
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// DATA_1_RO:
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// Input data for MIO[53:32]
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register!(gpio_input, GPIOInput, RO, u32);
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#[cfg(feature = "target_zc706")]
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register_at!(GPIOInput, 0xE000A064, new);
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// Input for SCL
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_input, scl, 8);
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register_bit!(gpio_input, scl, 18);
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// Input for SDA
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_input, sda, 9);
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register_bit!(gpio_input, sda, 19);
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// DIRM_1:
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// Direction mode for MIO[53:32]; 0/1 = in/out
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register!(gpio_direction, GPIODirection, RW, u32);
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#[cfg(feature = "target_zc706")]
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register_at!(GPIODirection, 0xE000A244, new);
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// Direction for SCL
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_direction, scl, 18);
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// Direction for SDA
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_direction, sda, 19);
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// OEN_1:
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// Output enable for MIO[53:32]
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register!(gpio_output_enable, GPIOOutputEnable, RW, u32);
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#[cfg(feature = "target_zc706")]
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register_at!(GPIOOutputEnable, 0xE000A248, new);
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// Output enable for SCL
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_enable, scl, 8);
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register_bit!(gpio_output_enable, scl, 18);
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// Output enable for SDA
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#[cfg(feature = "target_zc706")]
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register_bit!(gpio_output_enable, sda, 9);
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register_bit!(gpio_output_enable, sda, 19);
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@ -132,7 +132,7 @@ pub struct RegisterBlock {
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pub can_rst_ctrl: RW<u32>,
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pub i2c_rst_ctrl: RW<u32>,
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pub uart_rst_ctrl: UartRstCtrl,
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pub gpio_rst_ctrl: RW<u32>,
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pub gpio_rst_ctrl: GpioRstCtrl,
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pub lqspi_rst_ctrl: LqspiRstCtrl,
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pub smc_rst_ctrl: RW<u32>,
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pub ocm_rst_ctrl: RW<u32>,
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@ -531,6 +531,20 @@ impl UartRstCtrl {
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}
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}
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register!(gpio_rst_ctrl, GpioRstCtrl, RW, u32);
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register_bit!(gpio_rst_ctrl, gpio_cpu1x_rst, 0);
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register_at!(GpioRstCtrl, 0xF800022C, new);
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impl GpioRstCtrl {
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pub fn reset_gpio(&mut self) {
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self.modify(|_, w|
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w.gpio_cpu1x_rst(true)
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);
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self.modify(|_, w|
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w.gpio_cpu1x_rst(false)
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);
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}
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}
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register!(lqspi_clk_ctrl, LqspiClkCtrl, RW, u32);
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register_bit!(lqspi_clk_ctrl, clkact, 0);
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register_bits_typed!(lqspi_clk_ctrl, src_sel, u8, PllSource, 4, 5);
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