264 lines
10 KiB
Rust
264 lines
10 KiB
Rust
//! # Embassy nRF HAL
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//!
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//! HALs implement safe, idiomatic Rust APIs to use the hardware capabilities, so raw register manipulation is not needed.
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//!
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//! The Embassy nRF HAL targets the Nordic Semiconductor nRF family of hardware. The HAL implements both blocking and async APIs
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//! for many peripherals. The benefit of using the async APIs is that the HAL takes care of waiting for peripherals to
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//! complete operations in low power mod and handling interrupts, so that applications can focus on more important matters.
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//!
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//! ## EasyDMA considerations
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//!
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//! On nRF chips, peripherals can use the so called EasyDMA feature to offload the task of interacting
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//! with peripherals. It takes care of sending/receiving data over a variety of bus protocols (TWI/I2C, UART, SPI).
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//! However, EasyDMA requires the buffers used to transmit and receive data to reside in RAM. Unfortunately, Rust
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//! slices will not always do so. The following example using the SPI peripheral shows a common situation where this might happen:
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//!
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//! ```no_run
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//! // As we pass a slice to the function whose contents will not ever change,
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//! // the compiler writes it into the flash and thus the pointer to it will
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//! // reference static memory. Since EasyDMA requires slices to reside in RAM,
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//! // this function call will fail.
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//! let result = spim.write_from_ram(&[1, 2, 3]);
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//! assert_eq!(result, Err(Error::DMABufferNotInDataMemory));
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//!
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//! // The data is still static and located in flash. However, since we are assigning
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//! // it to a variable, the compiler will load it into memory. Passing a reference to the
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//! // variable will yield a pointer that references dynamic memory, thus making EasyDMA happy.
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//! // This function call succeeds.
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//! let data = [1, 2, 3];
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//! let result = spim.write_from_ram(&data);
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//! assert!(result.is_ok());
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//! ```
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//!
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//! Each peripheral struct which uses EasyDMA ([`Spim`](spim::Spim), [`Uarte`](uarte::Uarte), [`Twim`](twim::Twim)) has two variants of their mutating functions:
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//! - Functions with the suffix (e.g. [`write_from_ram`](spim::Spim::write_from_ram), [`transfer_from_ram`](spim::Spim::transfer_from_ram)) will return an error if the passed slice does not reside in RAM.
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//! - Functions without the suffix (e.g. [`write`](spim::Spim::write), [`transfer`](spim::Spim::transfer)) will check whether the data is in RAM and copy it into memory prior to transmission.
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//!
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//! Since copying incurs a overhead, you are given the option to choose from `_from_ram` variants which will
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//! fail and notify you, or the more convenient versions without the suffix which are potentially a little bit
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//! more inefficient. Be aware that this overhead is not only in terms of instruction count but also in terms of memory usage
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//! as the methods without the suffix will be allocating a statically sized buffer (up to 512 bytes for the nRF52840).
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//!
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//! Note that the methods that read data like [`read`](spim::Spim::read) and [`transfer_in_place`](spim::Spim::transfer_in_place) do not have the corresponding `_from_ram` variants as
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//! mutable slices always reside in RAM.
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#![no_std]
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#![cfg_attr(feature = "nightly", feature(generic_associated_types, type_alias_impl_trait))]
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#[cfg(not(any(
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feature = "nrf51",
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feature = "nrf52805",
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feature = "nrf52810",
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feature = "nrf52811",
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feature = "nrf52820",
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feature = "nrf52832",
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feature = "nrf52833",
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feature = "nrf52840",
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feature = "nrf5340-app-s",
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feature = "nrf5340-app-ns",
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feature = "nrf5340-net",
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feature = "nrf9160-s",
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feature = "nrf9160-ns",
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)))]
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compile_error!("No chip feature activated. You must activate exactly one of the following features: nrf52810, nrf52811, nrf52832, nrf52833, nrf52840");
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// This mod MUST go first, so that the others see its macros.
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pub(crate) mod fmt;
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pub(crate) mod util;
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#[cfg(feature = "_time-driver")]
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mod time_driver;
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#[cfg(feature = "nightly")]
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pub mod buffered_uarte;
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pub mod gpio;
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#[cfg(feature = "gpiote")]
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pub mod gpiote;
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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pub mod nvmc;
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pub mod ppi;
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#[cfg(not(any(feature = "nrf52805", feature = "nrf52820", feature = "_nrf5340-net")))]
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pub mod pwm;
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#[cfg(not(any(feature = "nrf51", feature = "_nrf9160", feature = "_nrf5340")))]
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pub mod qdec;
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#[cfg(feature = "nrf52840")]
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pub mod qspi;
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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pub mod rng;
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#[cfg(not(any(feature = "nrf52820", feature = "_nrf5340-net")))]
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pub mod saadc;
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pub mod spim;
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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pub mod temp;
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pub mod timer;
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pub mod twim;
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pub mod uarte;
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#[cfg(any(
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feature = "_nrf5340-app",
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feature = "nrf52820",
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feature = "nrf52833",
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feature = "nrf52840"
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))]
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#[cfg(feature = "nightly")]
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pub mod usb;
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#[cfg(not(feature = "_nrf5340"))]
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pub mod wdt;
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// This mod MUST go last, so that it sees all the `impl_foo!` macros
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#[cfg_attr(feature = "nrf52805", path = "chips/nrf52805.rs")]
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#[cfg_attr(feature = "nrf52810", path = "chips/nrf52810.rs")]
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#[cfg_attr(feature = "nrf52811", path = "chips/nrf52811.rs")]
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#[cfg_attr(feature = "nrf52820", path = "chips/nrf52820.rs")]
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#[cfg_attr(feature = "nrf52832", path = "chips/nrf52832.rs")]
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#[cfg_attr(feature = "nrf52833", path = "chips/nrf52833.rs")]
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#[cfg_attr(feature = "nrf52840", path = "chips/nrf52840.rs")]
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#[cfg_attr(feature = "_nrf5340-app", path = "chips/nrf5340_app.rs")]
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#[cfg_attr(feature = "_nrf5340-net", path = "chips/nrf5340_net.rs")]
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#[cfg_attr(feature = "_nrf9160", path = "chips/nrf9160.rs")]
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mod chip;
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pub use chip::EASY_DMA_SIZE;
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pub mod interrupt {
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//! nRF interrupts for cortex-m devices.
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pub use cortex_m::interrupt::{CriticalSection, Mutex};
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pub use embassy_cortex_m::interrupt::*;
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pub use crate::chip::irqs::*;
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}
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// Reexports
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#[cfg(feature = "unstable-pac")]
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pub use chip::pac;
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#[cfg(not(feature = "unstable-pac"))]
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pub(crate) use chip::pac;
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pub use chip::{peripherals, Peripherals};
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pub use embassy_cortex_m::executor;
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pub use embassy_hal_common::{unborrow, Unborrow};
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pub use embassy_macros::cortex_m_interrupt as interrupt;
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pub mod config {
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//! Configuration options used when initializing the HAL.
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/// High frequency clock source.
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pub enum HfclkSource {
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/// Internal source
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Internal,
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/// External source from xtal.
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ExternalXtal,
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}
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/// Low frequency clock source
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pub enum LfclkSource {
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/// Internal RC oscillator
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InternalRC,
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/// Synthesized from the high frequency clock source.
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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Synthesized,
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/// External source from xtal.
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ExternalXtal,
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/// External source from xtal with low swing applied.
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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ExternalLowSwing,
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/// External source from xtal with full swing applied.
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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ExternalFullSwing,
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}
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/// Configuration for peripherals. Default configuration should work on any nRF chip.
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#[non_exhaustive]
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pub struct Config {
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/// High frequency clock source.
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pub hfclk_source: HfclkSource,
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/// Low frequency clock source.
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pub lfclk_source: LfclkSource,
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/// GPIOTE interrupt priority. Should be lower priority than softdevice if used.
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#[cfg(feature = "gpiote")]
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pub gpiote_interrupt_priority: crate::interrupt::Priority,
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/// Time driver interrupt priority. Should be lower priority than softdevice if used.
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#[cfg(feature = "_time-driver")]
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pub time_interrupt_priority: crate::interrupt::Priority,
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}
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impl Default for Config {
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fn default() -> Self {
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Self {
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// There are hobby nrf52 boards out there without external XTALs...
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// Default everything to internal so it Just Works. User can enable external
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// xtals if they know they have them.
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hfclk_source: HfclkSource::Internal,
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lfclk_source: LfclkSource::InternalRC,
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#[cfg(feature = "gpiote")]
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gpiote_interrupt_priority: crate::interrupt::Priority::P0,
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#[cfg(feature = "_time-driver")]
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time_interrupt_priority: crate::interrupt::Priority::P0,
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}
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}
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}
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}
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/// Initialize peripherals with the provided configuration. This should only be called once at startup.
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pub fn init(config: config::Config) -> Peripherals {
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// Do this first, so that it panics if user is calling `init` a second time
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// before doing anything important.
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let peripherals = Peripherals::take();
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let r = unsafe { &*pac::CLOCK::ptr() };
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// Start HFCLK.
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match config.hfclk_source {
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config::HfclkSource::Internal => {}
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config::HfclkSource::ExternalXtal => {
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// Datasheet says this is likely to take 0.36ms
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r.events_hfclkstarted.write(|w| unsafe { w.bits(0) });
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r.tasks_hfclkstart.write(|w| unsafe { w.bits(1) });
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while r.events_hfclkstarted.read().bits() == 0 {}
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}
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}
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// Configure LFCLK.
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#[cfg(not(any(feature = "_nrf5340", feature = "_nrf9160")))]
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match config.lfclk_source {
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config::LfclkSource::InternalRC => r.lfclksrc.write(|w| w.src().rc()),
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config::LfclkSource::Synthesized => r.lfclksrc.write(|w| w.src().synth()),
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config::LfclkSource::ExternalXtal => r.lfclksrc.write(|w| w.src().xtal()),
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config::LfclkSource::ExternalLowSwing => r.lfclksrc.write(|w| {
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w.src().xtal();
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w.external().enabled();
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w.bypass().disabled();
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w
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}),
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config::LfclkSource::ExternalFullSwing => r.lfclksrc.write(|w| {
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w.src().xtal();
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w.external().enabled();
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w.bypass().enabled();
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w
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}),
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}
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#[cfg(feature = "_nrf9160")]
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match config.lfclk_source {
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config::LfclkSource::InternalRC => r.lfclksrc.write(|w| w.src().lfrc()),
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config::LfclkSource::ExternalXtal => r.lfclksrc.write(|w| w.src().lfxo()),
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}
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// Start LFCLK.
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// Datasheet says this could take 100us from synth source
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// 600us from rc source, 0.25s from an external source.
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r.events_lfclkstarted.write(|w| unsafe { w.bits(0) });
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r.tasks_lfclkstart.write(|w| unsafe { w.bits(1) });
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while r.events_lfclkstarted.read().bits() == 0 {}
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// Init GPIOTE
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#[cfg(feature = "gpiote")]
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gpiote::init(config.gpiote_interrupt_priority);
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// init RTC time driver
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#[cfg(feature = "_time-driver")]
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time_driver::init(config.time_interrupt_priority);
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peripherals
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}
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