@@ -13,7 +13,8 @@
clk::{Clk, Hertz},
cpumask,
device::Device,
- error::{code::*, from_err_ptr, to_result, Result, VTABLE_DEFAULT_ERROR},
+ devres::Devres,
+ error::{code::*, from_err_ptr, from_result, to_result, Result, VTABLE_DEFAULT_ERROR},
ffi::c_ulong,
prelude::*,
types::ForeignOwnable,
@@ -21,9 +22,11 @@
};
use core::{
+ cell::UnsafeCell,
+ marker::PhantomData,
ops::{Deref, DerefMut},
pin::Pin,
- ptr::self,
+ ptr,
};
use macros::vtable;
@@ -792,3 +795,526 @@ fn register_em(_policy: &mut Policy) {
build_error!(VTABLE_DEFAULT_ERROR)
}
}
+
+/// CPU frequency driver Registration.
+///
+/// ## Examples
+///
+/// The following example demonstrates how to register a cpufreq driver.
+///
+/// ```
+/// use kernel::{
+/// c_str,
+/// cpu, cpufreq,
+/// device::Device,
+/// macros::vtable,
+/// sync::Arc,
+/// };
+/// struct FooDevice;
+///
+/// #[derive(Default)]
+/// struct FooDriver;
+///
+/// #[vtable]
+/// impl cpufreq::Driver for FooDriver {
+/// type Data = ();
+/// type PData = Arc<FooDevice>;
+///
+/// fn init(policy: &mut cpufreq::Policy) -> Result<Self::PData> {
+/// // Initialize here
+/// Ok(Arc::new(FooDevice, GFP_KERNEL)?)
+/// }
+///
+/// fn exit(_policy: &mut cpufreq::Policy, _data: Option<Self::PData>) -> Result<()> {
+/// Ok(())
+/// }
+///
+/// fn suspend(policy: &mut cpufreq::Policy) -> Result<()> {
+/// policy.generic_suspend()
+/// }
+///
+/// fn verify(data: &mut cpufreq::PolicyData) -> Result<()> {
+/// data.generic_verify()
+/// }
+///
+/// fn target_index(policy: &mut cpufreq::Policy, index: u32) -> Result<()> {
+/// // Update CPU frequency
+/// Ok(())
+/// }
+///
+/// fn get(policy: &mut cpufreq::Policy) -> Result<u32> {
+/// policy.generic_get()
+/// }
+/// }
+///
+/// fn foo_probe(dev: &Device) {
+/// cpufreq::Registration::<FooDriver>::new_foreign_owned(
+/// dev,
+/// c_str!("cpufreq-foo"),
+/// (),
+/// cpufreq::flags::NEED_INITIAL_FREQ_CHECK | cpufreq::flags::IS_COOLING_DEV,
+/// true,
+/// ).unwrap();
+/// }
+/// ```
+pub struct Registration<T: Driver> {
+ drv: KBox<UnsafeCell<bindings::cpufreq_driver>>,
+ _p: PhantomData<T>,
+}
+
+// SAFETY: `Registration` doesn't offer any methods or access to fields when shared between threads
+// or CPUs, so it is safe to share it.
+unsafe impl<T: Driver> Sync for Registration<T> {}
+
+#[allow(clippy::non_send_fields_in_send_ty)]
+// SAFETY: Registration with and unregistration from the cpufreq subsystem can happen from any
+// thread. Additionally, `T::Data` (which is dropped during unregistration) is `Send`, so it is
+// okay to move `Registration` to different threads.
+unsafe impl<T: Driver> Send for Registration<T> {}
+
+impl<T: Driver> Registration<T> {
+ /// Registers a CPU frequency driver with the cpufreq core.
+ pub fn new(name: &'static CStr, data: T::Data, flags: u16, boost: bool) -> Result<Self> {
+ // Required due to Rust 1.82's stricter handling of `unsafe` in mutable statics. The
+ // `unsafe` blocks aren't required anymore with later versions.
+ #![allow(unused_unsafe)]
+
+ let mut drv = KBox::new(
+ UnsafeCell::new(bindings::cpufreq_driver::default()),
+ GFP_KERNEL,
+ )?;
+ let drv_ref = drv.get_mut();
+
+ // Account for the trailing null byte.
+ let len = name.len() + 1;
+ if len > drv_ref.name.len() {
+ return Err(EINVAL);
+ };
+
+ // SAFETY: `name` is a valid `CStr`, and we are copying it to an array of equal or larger
+ // size.
+ let name = unsafe { &*(name.as_bytes_with_nul() as *const [u8]) };
+ drv_ref.name[..len].copy_from_slice(name);
+
+ drv_ref.boost_enabled = boost;
+ drv_ref.flags = flags;
+
+ // Initialize mandatory callbacks.
+ drv_ref.init = Some(Self::init_callback);
+ drv_ref.verify = Some(Self::verify_callback);
+
+ // Initialize optional callbacks based on the traits of `T`.
+ drv_ref.setpolicy = if T::HAS_SETPOLICY {
+ Some(Self::setpolicy_callback)
+ } else {
+ None
+ };
+ drv_ref.target = if T::HAS_TARGET {
+ Some(Self::target_callback)
+ } else {
+ None
+ };
+ drv_ref.target_index = if T::HAS_TARGET_INDEX {
+ Some(Self::target_index_callback)
+ } else {
+ None
+ };
+ drv_ref.fast_switch = if T::HAS_FAST_SWITCH {
+ Some(Self::fast_switch_callback)
+ } else {
+ None
+ };
+ drv_ref.adjust_perf = if T::HAS_ADJUST_PERF {
+ Some(Self::adjust_perf_callback)
+ } else {
+ None
+ };
+ drv_ref.get_intermediate = if T::HAS_GET_INTERMEDIATE {
+ Some(Self::get_intermediate_callback)
+ } else {
+ None
+ };
+ drv_ref.target_intermediate = if T::HAS_TARGET_INTERMEDIATE {
+ Some(Self::target_intermediate_callback)
+ } else {
+ None
+ };
+ drv_ref.get = if T::HAS_GET {
+ Some(Self::get_callback)
+ } else {
+ None
+ };
+ drv_ref.update_limits = if T::HAS_UPDATE_LIMITS {
+ Some(Self::update_limits_callback)
+ } else {
+ None
+ };
+ drv_ref.bios_limit = if T::HAS_BIOS_LIMIT {
+ Some(Self::bios_limit_callback)
+ } else {
+ None
+ };
+ drv_ref.online = if T::HAS_ONLINE {
+ Some(Self::online_callback)
+ } else {
+ None
+ };
+ drv_ref.offline = if T::HAS_OFFLINE {
+ Some(Self::offline_callback)
+ } else {
+ None
+ };
+ drv_ref.exit = if T::HAS_EXIT {
+ Some(Self::exit_callback)
+ } else {
+ None
+ };
+ drv_ref.suspend = if T::HAS_SUSPEND {
+ Some(Self::suspend_callback)
+ } else {
+ None
+ };
+ drv_ref.resume = if T::HAS_RESUME {
+ Some(Self::resume_callback)
+ } else {
+ None
+ };
+ drv_ref.ready = if T::HAS_READY {
+ Some(Self::ready_callback)
+ } else {
+ None
+ };
+ drv_ref.set_boost = if T::HAS_SET_BOOST {
+ Some(Self::set_boost_callback)
+ } else {
+ None
+ };
+ drv_ref.register_em = if T::HAS_REGISTER_EM {
+ Some(Self::register_em_callback)
+ } else {
+ None
+ };
+
+ // Set driver data before registering the driver, as the cpufreq core calls few callbacks
+ // before `cpufreq_register_driver` returns.
+ Self::set_data(drv_ref, data)?;
+
+ // SAFETY: It is safe to register the driver with the cpufreq core in the kernel C code.
+ to_result(unsafe { bindings::cpufreq_register_driver(drv_ref) })?;
+
+ Ok(Self {
+ drv,
+ _p: PhantomData,
+ })
+ }
+
+ /// Same as [`Registration::new`], but does not return a [`Registration`] instance.
+ ///
+ /// Instead the [`Registration`] is owned by [`Devres`] and will be revoked / dropped, once the
+ /// device is detached.
+ pub fn new_foreign_owned(
+ dev: &Device,
+ name: &'static CStr,
+ data: T::Data,
+ flags: u16,
+ boost: bool,
+ ) -> Result<()> {
+ Devres::new_foreign_owned(dev, Self::new(name, data, flags, boost)?, GFP_KERNEL)?;
+ Ok(())
+ }
+
+ // Sets the `Data` for the CPU frequency driver.
+ fn set_data(drv: &mut bindings::cpufreq_driver, data: T::Data) -> Result<()> {
+ if drv.driver_data.is_null() {
+ // Transfer the ownership of the data to the C code.
+ drv.driver_data = <T::Data as ForeignOwnable>::into_foreign(data) as _;
+ Ok(())
+ } else {
+ Err(EBUSY)
+ }
+ }
+
+ /// Returns borrowed `Data` previously set for the CPU frequency driver.
+ pub fn data(&mut self) -> Option<<T::Data as ForeignOwnable>::Borrowed<'static>> {
+ let drv = self.drv.get_mut();
+
+ if drv.driver_data.is_null() {
+ None
+ } else {
+ // SAFETY: The data is earlier set by us from `set_data`.
+ Some(unsafe { <T::Data as ForeignOwnable>::borrow(drv.driver_data) })
+ }
+ }
+
+ // Clears and returns the `Data` for the CPU frequency driver.
+ fn clear_data(&mut self) -> Option<T::Data> {
+ let drv = self.drv.get_mut();
+
+ if drv.driver_data.is_null() {
+ None
+ } else {
+ // SAFETY: The data is earlier set by us from `set_data`.
+ let data = Some(unsafe { <T::Data as ForeignOwnable>::from_foreign(drv.driver_data) });
+ drv.driver_data = ptr::null_mut();
+ data
+ }
+ }
+}
+
+// CPU frequency driver callbacks.
+impl<T: Driver> Registration<T> {
+ // Driver's `init` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn init_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+
+ let data = T::init(policy)?;
+ policy.set_data(data)?;
+ Ok(0)
+ })
+ }
+
+ // Driver's `exit` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn exit_callback(ptr: *mut bindings::cpufreq_policy) {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+
+ let data = policy.clear_data();
+ let _ = T::exit(policy, data);
+ }
+
+ // Driver's `online` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn online_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::online(policy).map(|()| 0)
+ })
+ }
+
+ // Driver's `offline` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn offline_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::offline(policy).map(|()| 0)
+ })
+ }
+
+ // Driver's `suspend` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn suspend_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::suspend(policy).map(|()| 0)
+ })
+ }
+
+ // Driver's `resume` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn resume_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::resume(policy).map(|()| 0)
+ })
+ }
+
+ // Driver's `ready` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn ready_callback(ptr: *mut bindings::cpufreq_policy) {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::ready(policy);
+ }
+
+ // Driver's `verify` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn verify_callback(ptr: *mut bindings::cpufreq_policy_data) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let data = unsafe { PolicyData::from_raw_mut(ptr) };
+ T::verify(data).map(|()| 0)
+ })
+ }
+
+ // Driver's `setpolicy` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn setpolicy_callback(ptr: *mut bindings::cpufreq_policy) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::setpolicy(policy).map(|()| 0)
+ })
+ }
+
+ // Driver's `target` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn target_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ target_freq: u32,
+ relation: u32,
+ ) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::target(policy, target_freq, Relation::new(relation)?).map(|()| 0)
+ })
+ }
+
+ // Driver's `target_index` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn target_index_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ index: u32,
+ ) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::target_index(policy, index).map(|()| 0)
+ })
+ }
+
+ // Driver's `fast_switch` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn fast_switch_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ target_freq: u32,
+ ) -> kernel::ffi::c_uint {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::fast_switch(policy, target_freq)
+ }
+
+ // Driver's `adjust_perf` callback.
+ extern "C" fn adjust_perf_callback(
+ cpu: u32,
+ min_perf: usize,
+ target_perf: usize,
+ capacity: usize,
+ ) {
+ if let Ok(mut policy) = PolicyCpu::from_cpu(cpu) {
+ T::adjust_perf(&mut policy, min_perf, target_perf, capacity);
+ }
+ }
+
+ // Driver's `get_intermediate` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn get_intermediate_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ index: u32,
+ ) -> kernel::ffi::c_uint {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::get_intermediate(policy, index)
+ }
+
+ // Driver's `target_intermediate` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn target_intermediate_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ index: u32,
+ ) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::target_intermediate(policy, index).map(|()| 0)
+ })
+ }
+
+ // Driver's `get` callback.
+ extern "C" fn get_callback(cpu: u32) -> kernel::ffi::c_uint {
+ PolicyCpu::from_cpu(cpu).map_or(0, |mut policy| T::get(&mut policy).map_or(0, |f| f))
+ }
+
+ // Driver's `update_limit` callback.
+ extern "C" fn update_limits_callback(cpu: u32) {
+ if let Ok(mut policy) = PolicyCpu::from_cpu(cpu) {
+ T::update_limits(&mut policy);
+ }
+ }
+
+ // Driver's `bios_limit` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn bios_limit_callback(cpu: i32, limit: *mut u32) -> kernel::ffi::c_int {
+ from_result(|| {
+ let mut policy = PolicyCpu::from_cpu(cpu as u32)?;
+
+ // SAFETY: `limit` is guaranteed by the C code to be valid.
+ T::bios_limit(&mut policy, &mut (unsafe { *limit })).map(|()| 0)
+ })
+ }
+
+ // Driver's `set_boost` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn set_boost_callback(
+ ptr: *mut bindings::cpufreq_policy,
+ state: i32,
+ ) -> kernel::ffi::c_int {
+ from_result(|| {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::set_boost(policy, state).map(|()| 0)
+ })
+ }
+
+ // Driver's `register_em` callback.
+ //
+ // SAFETY: Called from C. Inputs must be valid pointers.
+ extern "C" fn register_em_callback(ptr: *mut bindings::cpufreq_policy) {
+ // SAFETY: The `ptr` is guaranteed to be valid by the contract with the C code for the
+ // lifetime of `policy`.
+ let policy = unsafe { Policy::from_raw_mut(ptr) };
+ T::register_em(policy);
+ }
+}
+
+impl<T: Driver> Drop for Registration<T> {
+ // Removes the `Registration` from the kernel, if it has initialized successfully earlier.
+ fn drop(&mut self) {
+ let drv = self.drv.get_mut();
+
+ // SAFETY: The driver was earlier registered from `new`.
+ unsafe { bindings::cpufreq_unregister_driver(drv) };
+
+ // Free data
+ drop(self.clear_data());
+ }
+}
Extend the cpufreq abstractions to support driver registration from Rust. Signed-off-by: Viresh Kumar <viresh.kumar@linaro.org> --- rust/kernel/cpufreq.rs | 530 ++++++++++++++++++++++++++++++++++++++++- 1 file changed, 528 insertions(+), 2 deletions(-)