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Diffstat (limited to 'drivers/pwm/pwm_th1520.rs')
-rw-r--r--drivers/pwm/pwm_th1520.rs387
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diff --git a/drivers/pwm/pwm_th1520.rs b/drivers/pwm/pwm_th1520.rs
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+++ b/drivers/pwm/pwm_th1520.rs
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+// SPDX-License-Identifier: GPL-2.0
+// Copyright (c) 2025 Samsung Electronics Co., Ltd.
+// Author: Michal Wilczynski <m.wilczynski@samsung.com>
+
+//! Rust T-HEAD TH1520 PWM driver
+//!
+//! Limitations:
+//! - The period and duty cycle are controlled by 32-bit hardware registers,
+//! limiting the maximum resolution.
+//! - The driver supports continuous output mode only; one-shot mode is not
+//! implemented.
+//! - The controller hardware provides up to 6 PWM channels.
+//! - Reconfiguration is glitch free - new period and duty cycle values are
+//! latched and take effect at the start of the next period.
+//! - Polarity is handled via a simple hardware inversion bit; arbitrary
+//! duty cycle offsets are not supported.
+//! - Disabling a channel is achieved by configuring its duty cycle to zero to
+//! produce a static low output. Clearing the `start` does not reliably
+//! force the static inactive level defined by the `INACTOUT` bit. Hence
+//! this method is not used in this driver.
+//!
+
+use core::ops::Deref;
+use kernel::{
+ c_str,
+ clk::Clk,
+ device::{Bound, Core, Device},
+ devres,
+ io::mem::IoMem,
+ of, platform,
+ prelude::*,
+ pwm, time,
+};
+
+const TH1520_MAX_PWM_NUM: u32 = 6;
+
+// Register offsets
+const fn th1520_pwm_chn_base(n: u32) -> usize {
+ (n * 0x20) as usize
+}
+
+const fn th1520_pwm_ctrl(n: u32) -> usize {
+ th1520_pwm_chn_base(n)
+}
+
+const fn th1520_pwm_per(n: u32) -> usize {
+ th1520_pwm_chn_base(n) + 0x08
+}
+
+const fn th1520_pwm_fp(n: u32) -> usize {
+ th1520_pwm_chn_base(n) + 0x0c
+}
+
+// Control register bits
+const TH1520_PWM_START: u32 = 1 << 0;
+const TH1520_PWM_CFG_UPDATE: u32 = 1 << 2;
+const TH1520_PWM_CONTINUOUS_MODE: u32 = 1 << 5;
+const TH1520_PWM_FPOUT: u32 = 1 << 8;
+
+const TH1520_PWM_REG_SIZE: usize = 0xB0;
+
+fn ns_to_cycles(ns: u64, rate_hz: u64) -> u64 {
+ const NSEC_PER_SEC_U64: u64 = time::NSEC_PER_SEC as u64;
+
+ (match ns.checked_mul(rate_hz) {
+ Some(product) => product,
+ None => u64::MAX,
+ }) / NSEC_PER_SEC_U64
+}
+
+fn cycles_to_ns(cycles: u64, rate_hz: u64) -> u64 {
+ const NSEC_PER_SEC_U64: u64 = time::NSEC_PER_SEC as u64;
+
+ // TODO: Replace with a kernel helper like `mul_u64_u64_div_u64_roundup`
+ // once available in Rust.
+ let numerator = cycles
+ .saturating_mul(NSEC_PER_SEC_U64)
+ .saturating_add(rate_hz - 1);
+
+ numerator / rate_hz
+}
+
+/// Hardware-specific waveform representation for TH1520.
+#[derive(Copy, Clone, Debug, Default)]
+struct Th1520WfHw {
+ period_cycles: u32,
+ duty_cycles: u32,
+ ctrl_val: u32,
+ enabled: bool,
+}
+
+/// The driver's private data struct. It holds all necessary devres managed resources.
+#[pin_data(PinnedDrop)]
+struct Th1520PwmDriverData {
+ #[pin]
+ iomem: devres::Devres<IoMem<TH1520_PWM_REG_SIZE>>,
+ clk: Clk,
+}
+
+// This `unsafe` implementation is a temporary necessity because the underlying `kernel::clk::Clk`
+// type does not yet expose `Send` and `Sync` implementations. This block should be removed
+// as soon as the clock abstraction provides these guarantees directly.
+// TODO: Remove those unsafe impl's when Clk will support them itself.
+
+// SAFETY: The `devres` framework requires the driver's private data to be `Send` and `Sync`.
+// We can guarantee this because the PWM core synchronizes all callbacks, preventing concurrent
+// access to the contained `iomem` and `clk` resources.
+unsafe impl Send for Th1520PwmDriverData {}
+
+// SAFETY: The same reasoning applies as for `Send`. The PWM core's synchronization
+// guarantees that it is safe for multiple threads to have shared access (`&self`)
+// to the driver data during callbacks.
+unsafe impl Sync for Th1520PwmDriverData {}
+
+impl pwm::PwmOps for Th1520PwmDriverData {
+ type WfHw = Th1520WfHw;
+
+ fn round_waveform_tohw(
+ chip: &pwm::Chip<Self>,
+ _pwm: &pwm::Device,
+ wf: &pwm::Waveform,
+ ) -> Result<pwm::RoundedWaveform<Self::WfHw>> {
+ let data = chip.drvdata();
+ let mut status = 0;
+
+ if wf.period_length_ns == 0 {
+ dev_dbg!(chip.device(), "Requested period is 0, disabling PWM.\n");
+
+ return Ok(pwm::RoundedWaveform {
+ status: 0,
+ hardware_waveform: Th1520WfHw {
+ enabled: false,
+ ..Default::default()
+ },
+ });
+ }
+
+ let rate_hz = data.clk.rate().as_hz() as u64;
+
+ let mut period_cycles = ns_to_cycles(wf.period_length_ns, rate_hz).min(u64::from(u32::MAX));
+
+ if period_cycles == 0 {
+ dev_dbg!(
+ chip.device(),
+ "Requested period {} ns is too small for clock rate {} Hz, rounding up.\n",
+ wf.period_length_ns,
+ rate_hz
+ );
+
+ period_cycles = 1;
+ status = 1;
+ }
+
+ let mut duty_cycles = ns_to_cycles(wf.duty_length_ns, rate_hz).min(u64::from(u32::MAX));
+
+ let mut ctrl_val = TH1520_PWM_CONTINUOUS_MODE;
+
+ let is_inversed = wf.duty_length_ns > 0
+ && wf.duty_offset_ns > 0
+ && wf.duty_offset_ns >= wf.period_length_ns.saturating_sub(wf.duty_length_ns);
+ if is_inversed {
+ duty_cycles = period_cycles - duty_cycles;
+ } else {
+ ctrl_val |= TH1520_PWM_FPOUT;
+ }
+
+ let wfhw = Th1520WfHw {
+ // The cast is safe because the value was clamped with `.min(u64::from(u32::MAX))`.
+ period_cycles: period_cycles as u32,
+ duty_cycles: duty_cycles as u32,
+ ctrl_val,
+ enabled: true,
+ };
+
+ dev_dbg!(
+ chip.device(),
+ "Requested: {}/{} ns [+{} ns] -> HW: {}/{} cycles, ctrl 0x{:x}, rate {} Hz\n",
+ wf.duty_length_ns,
+ wf.period_length_ns,
+ wf.duty_offset_ns,
+ wfhw.duty_cycles,
+ wfhw.period_cycles,
+ wfhw.ctrl_val,
+ rate_hz
+ );
+
+ Ok(pwm::RoundedWaveform {
+ status,
+ hardware_waveform: wfhw,
+ })
+ }
+
+ fn round_waveform_fromhw(
+ chip: &pwm::Chip<Self>,
+ _pwm: &pwm::Device,
+ wfhw: &Self::WfHw,
+ wf: &mut pwm::Waveform,
+ ) -> Result {
+ let data = chip.drvdata();
+ let rate_hz = data.clk.rate().as_hz() as u64;
+
+ if wfhw.period_cycles == 0 {
+ dev_dbg!(
+ chip.device(),
+ "HW state has zero period, reporting as disabled.\n"
+ );
+ *wf = pwm::Waveform::default();
+ return Ok(());
+ }
+
+ wf.period_length_ns = cycles_to_ns(u64::from(wfhw.period_cycles), rate_hz);
+
+ let duty_cycles = u64::from(wfhw.duty_cycles);
+
+ if (wfhw.ctrl_val & TH1520_PWM_FPOUT) != 0 {
+ wf.duty_length_ns = cycles_to_ns(duty_cycles, rate_hz);
+ wf.duty_offset_ns = 0;
+ } else {
+ let period_cycles = u64::from(wfhw.period_cycles);
+ let original_duty_cycles = period_cycles.saturating_sub(duty_cycles);
+
+ // For an inverted signal, `duty_length_ns` is the high time (period - low_time).
+ wf.duty_length_ns = cycles_to_ns(original_duty_cycles, rate_hz);
+ // The offset is the initial low time, which is what the hardware register provides.
+ wf.duty_offset_ns = cycles_to_ns(duty_cycles, rate_hz);
+ }
+
+ Ok(())
+ }
+
+ fn read_waveform(
+ chip: &pwm::Chip<Self>,
+ pwm: &pwm::Device,
+ parent_dev: &Device<Bound>,
+ ) -> Result<Self::WfHw> {
+ let data = chip.drvdata();
+ let hwpwm = pwm.hwpwm();
+ let iomem_accessor = data.iomem.access(parent_dev)?;
+ let iomap = iomem_accessor.deref();
+
+ let ctrl = iomap.try_read32(th1520_pwm_ctrl(hwpwm))?;
+ let period_cycles = iomap.try_read32(th1520_pwm_per(hwpwm))?;
+ let duty_cycles = iomap.try_read32(th1520_pwm_fp(hwpwm))?;
+
+ let wfhw = Th1520WfHw {
+ period_cycles,
+ duty_cycles,
+ ctrl_val: ctrl,
+ enabled: duty_cycles != 0,
+ };
+
+ dev_dbg!(
+ chip.device(),
+ "PWM-{}: read_waveform: Read hw state - period: {}, duty: {}, ctrl: 0x{:x}, enabled: {}",
+ hwpwm,
+ wfhw.period_cycles,
+ wfhw.duty_cycles,
+ wfhw.ctrl_val,
+ wfhw.enabled
+ );
+
+ Ok(wfhw)
+ }
+
+ fn write_waveform(
+ chip: &pwm::Chip<Self>,
+ pwm: &pwm::Device,
+ wfhw: &Self::WfHw,
+ parent_dev: &Device<Bound>,
+ ) -> Result {
+ let data = chip.drvdata();
+ let hwpwm = pwm.hwpwm();
+ let iomem_accessor = data.iomem.access(parent_dev)?;
+ let iomap = iomem_accessor.deref();
+ let duty_cycles = iomap.try_read32(th1520_pwm_fp(hwpwm))?;
+ let was_enabled = duty_cycles != 0;
+
+ if !wfhw.enabled {
+ dev_dbg!(chip.device(), "PWM-{}: Disabling channel.\n", hwpwm);
+ if was_enabled {
+ iomap.try_write32(wfhw.ctrl_val, th1520_pwm_ctrl(hwpwm))?;
+ iomap.try_write32(0, th1520_pwm_fp(hwpwm))?;
+ iomap.try_write32(
+ wfhw.ctrl_val | TH1520_PWM_CFG_UPDATE,
+ th1520_pwm_ctrl(hwpwm),
+ )?;
+ }
+ return Ok(());
+ }
+
+ iomap.try_write32(wfhw.ctrl_val, th1520_pwm_ctrl(hwpwm))?;
+ iomap.try_write32(wfhw.period_cycles, th1520_pwm_per(hwpwm))?;
+ iomap.try_write32(wfhw.duty_cycles, th1520_pwm_fp(hwpwm))?;
+ iomap.try_write32(
+ wfhw.ctrl_val | TH1520_PWM_CFG_UPDATE,
+ th1520_pwm_ctrl(hwpwm),
+ )?;
+
+ // The `TH1520_PWM_START` bit must be written in a separate, final transaction, and
+ // only when enabling the channel from a disabled state.
+ if !was_enabled {
+ iomap.try_write32(wfhw.ctrl_val | TH1520_PWM_START, th1520_pwm_ctrl(hwpwm))?;
+ }
+
+ dev_dbg!(
+ chip.device(),
+ "PWM-{}: Wrote {}/{} cycles",
+ hwpwm,
+ wfhw.duty_cycles,
+ wfhw.period_cycles,
+ );
+
+ Ok(())
+ }
+}
+
+#[pinned_drop]
+impl PinnedDrop for Th1520PwmDriverData {
+ fn drop(self: Pin<&mut Self>) {
+ self.clk.disable_unprepare();
+ }
+}
+
+struct Th1520PwmPlatformDriver;
+
+kernel::of_device_table!(
+ OF_TABLE,
+ MODULE_OF_TABLE,
+ <Th1520PwmPlatformDriver as platform::Driver>::IdInfo,
+ [(of::DeviceId::new(c_str!("thead,th1520-pwm")), ())]
+);
+
+impl platform::Driver for Th1520PwmPlatformDriver {
+ type IdInfo = ();
+ const OF_ID_TABLE: Option<of::IdTable<Self::IdInfo>> = Some(&OF_TABLE);
+
+ fn probe(
+ pdev: &platform::Device<Core>,
+ _id_info: Option<&Self::IdInfo>,
+ ) -> Result<Pin<KBox<Self>>> {
+ let dev = pdev.as_ref();
+ let request = pdev.io_request_by_index(0).ok_or(ENODEV)?;
+
+ let clk = Clk::get(dev, None)?;
+
+ clk.prepare_enable()?;
+
+ // TODO: Get exclusive ownership of the clock to prevent rate changes.
+ // The Rust equivalent of `clk_rate_exclusive_get()` is not yet available.
+ // This should be updated once it is implemented.
+ let rate_hz = clk.rate().as_hz();
+ if rate_hz == 0 {
+ dev_err!(dev, "Clock rate is zero\n");
+ return Err(EINVAL);
+ }
+
+ if rate_hz > time::NSEC_PER_SEC as usize {
+ dev_err!(
+ dev,
+ "Clock rate {} Hz is too high, not supported.\n",
+ rate_hz
+ );
+ return Err(EINVAL);
+ }
+
+ let chip = pwm::Chip::new(
+ dev,
+ TH1520_MAX_PWM_NUM,
+ try_pin_init!(Th1520PwmDriverData {
+ iomem <- request.iomap_sized::<TH1520_PWM_REG_SIZE>(),
+ clk <- clk,
+ }),
+ )?;
+
+ pwm::Registration::register(dev, chip)?;
+
+ Ok(KBox::new(Th1520PwmPlatformDriver, GFP_KERNEL)?.into())
+ }
+}
+
+kernel::module_pwm_platform_driver! {
+ type: Th1520PwmPlatformDriver,
+ name: "pwm-th1520",
+ authors: ["Michal Wilczynski <m.wilczynski@samsung.com>"],
+ description: "T-HEAD TH1520 PWM driver",
+ license: "GPL v2",
+}
generated by cgit v1.2.3 (git 2.46.0) at 2025-12-04 23:25:55 +0000