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https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
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5c7ca6fa60
Implement `dev_*` print macros for `device::Device`. They behave like the macros with the same names in C, i.e., they print messages to the kernel ring buffer with the given level, prefixing the messages with corresponding device information. Signed-off-by: Wedson Almeida Filho <wedsonaf@google.com> Signed-off-by: Danilo Krummrich <dakr@kernel.org> Link: https://lore.kernel.org/r/20241022213221.2383-9-dakr@kernel.org Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
414 lines
14 KiB
Rust
414 lines
14 KiB
Rust
// SPDX-License-Identifier: GPL-2.0
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//! Generic devices that are part of the kernel's driver model.
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//!
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//! C header: [`include/linux/device.h`](srctree/include/linux/device.h)
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use crate::{
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bindings,
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types::{ARef, Opaque},
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};
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use core::{fmt, ptr};
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#[cfg(CONFIG_PRINTK)]
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use crate::c_str;
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/// A reference-counted device.
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///
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/// This structure represents the Rust abstraction for a C `struct device`. This implementation
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/// abstracts the usage of an already existing C `struct device` within Rust code that we get
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/// passed from the C side.
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///
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/// An instance of this abstraction can be obtained temporarily or permanent.
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///
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/// A temporary one is bound to the lifetime of the C `struct device` pointer used for creation.
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/// A permanent instance is always reference-counted and hence not restricted by any lifetime
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/// boundaries.
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///
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/// For subsystems it is recommended to create a permanent instance to wrap into a subsystem
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/// specific device structure (e.g. `pci::Device`). This is useful for passing it to drivers in
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/// `T::probe()`, such that a driver can store the `ARef<Device>` (equivalent to storing a
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/// `struct device` pointer in a C driver) for arbitrary purposes, e.g. allocating DMA coherent
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/// memory.
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///
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/// # Invariants
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///
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/// A `Device` instance represents a valid `struct device` created by the C portion of the kernel.
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///
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/// Instances of this type are always reference-counted, that is, a call to `get_device` ensures
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/// that the allocation remains valid at least until the matching call to `put_device`.
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///
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/// `bindings::device::release` is valid to be called from any thread, hence `ARef<Device>` can be
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/// dropped from any thread.
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#[repr(transparent)]
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pub struct Device(Opaque<bindings::device>);
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impl Device {
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/// Creates a new reference-counted abstraction instance of an existing `struct device` pointer.
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///
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/// # Safety
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///
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/// Callers must ensure that `ptr` is valid, non-null, and has a non-zero reference count,
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/// i.e. it must be ensured that the reference count of the C `struct device` `ptr` points to
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/// can't drop to zero, for the duration of this function call.
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///
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/// It must also be ensured that `bindings::device::release` can be called from any thread.
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/// While not officially documented, this should be the case for any `struct device`.
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pub unsafe fn get_device(ptr: *mut bindings::device) -> ARef<Self> {
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// SAFETY: By the safety requirements ptr is valid
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unsafe { Self::as_ref(ptr) }.into()
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}
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/// Obtain the raw `struct device *`.
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pub(crate) fn as_raw(&self) -> *mut bindings::device {
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self.0.get()
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}
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/// Convert a raw C `struct device` pointer to a `&'a Device`.
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///
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/// # Safety
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///
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/// Callers must ensure that `ptr` is valid, non-null, and has a non-zero reference count,
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/// i.e. it must be ensured that the reference count of the C `struct device` `ptr` points to
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/// can't drop to zero, for the duration of this function call and the entire duration when the
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/// returned reference exists.
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pub unsafe fn as_ref<'a>(ptr: *mut bindings::device) -> &'a Self {
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// SAFETY: Guaranteed by the safety requirements of the function.
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unsafe { &*ptr.cast() }
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}
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/// Prints an emergency-level message (level 0) prefixed with device information.
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///
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/// More details are available from [`dev_emerg`].
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///
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/// [`dev_emerg`]: crate::dev_emerg
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pub fn pr_emerg(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_EMERG, args) };
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}
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/// Prints an alert-level message (level 1) prefixed with device information.
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///
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/// More details are available from [`dev_alert`].
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///
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/// [`dev_alert`]: crate::dev_alert
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pub fn pr_alert(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_ALERT, args) };
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}
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/// Prints a critical-level message (level 2) prefixed with device information.
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///
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/// More details are available from [`dev_crit`].
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///
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/// [`dev_crit`]: crate::dev_crit
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pub fn pr_crit(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_CRIT, args) };
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}
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/// Prints an error-level message (level 3) prefixed with device information.
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///
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/// More details are available from [`dev_err`].
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///
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/// [`dev_err`]: crate::dev_err
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pub fn pr_err(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_ERR, args) };
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}
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/// Prints a warning-level message (level 4) prefixed with device information.
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///
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/// More details are available from [`dev_warn`].
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///
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/// [`dev_warn`]: crate::dev_warn
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pub fn pr_warn(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_WARNING, args) };
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}
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/// Prints a notice-level message (level 5) prefixed with device information.
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///
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/// More details are available from [`dev_notice`].
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///
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/// [`dev_notice`]: crate::dev_notice
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pub fn pr_notice(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_NOTICE, args) };
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}
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/// Prints an info-level message (level 6) prefixed with device information.
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///
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/// More details are available from [`dev_info`].
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///
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/// [`dev_info`]: crate::dev_info
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pub fn pr_info(&self, args: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_INFO, args) };
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}
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/// Prints a debug-level message (level 7) prefixed with device information.
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///
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/// More details are available from [`dev_dbg`].
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///
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/// [`dev_dbg`]: crate::dev_dbg
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pub fn pr_dbg(&self, args: fmt::Arguments<'_>) {
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if cfg!(debug_assertions) {
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// SAFETY: `klevel` is null-terminated, uses one of the kernel constants.
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unsafe { self.printk(bindings::KERN_DEBUG, args) };
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}
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}
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/// Prints the provided message to the console.
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///
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/// # Safety
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///
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/// Callers must ensure that `klevel` is null-terminated; in particular, one of the
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/// `KERN_*`constants, for example, `KERN_CRIT`, `KERN_ALERT`, etc.
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#[cfg_attr(not(CONFIG_PRINTK), allow(unused_variables))]
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unsafe fn printk(&self, klevel: &[u8], msg: fmt::Arguments<'_>) {
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// SAFETY: `klevel` is null-terminated and one of the kernel constants. `self.as_raw`
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// is valid because `self` is valid. The "%pA" format string expects a pointer to
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// `fmt::Arguments`, which is what we're passing as the last argument.
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#[cfg(CONFIG_PRINTK)]
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unsafe {
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bindings::_dev_printk(
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klevel as *const _ as *const core::ffi::c_char,
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self.as_raw(),
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c_str!("%pA").as_char_ptr(),
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&msg as *const _ as *const core::ffi::c_void,
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)
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};
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}
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}
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// SAFETY: Instances of `Device` are always reference-counted.
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unsafe impl crate::types::AlwaysRefCounted for Device {
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fn inc_ref(&self) {
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// SAFETY: The existence of a shared reference guarantees that the refcount is non-zero.
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unsafe { bindings::get_device(self.as_raw()) };
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}
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unsafe fn dec_ref(obj: ptr::NonNull<Self>) {
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// SAFETY: The safety requirements guarantee that the refcount is non-zero.
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unsafe { bindings::put_device(obj.cast().as_ptr()) }
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}
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}
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// SAFETY: As by the type invariant `Device` can be sent to any thread.
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unsafe impl Send for Device {}
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// SAFETY: `Device` can be shared among threads because all immutable methods are protected by the
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// synchronization in `struct device`.
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unsafe impl Sync for Device {}
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#[doc(hidden)]
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#[macro_export]
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macro_rules! dev_printk {
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($method:ident, $dev:expr, $($f:tt)*) => {
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{
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($dev).$method(core::format_args!($($f)*));
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}
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}
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}
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/// Prints an emergency-level message (level 0) prefixed with device information.
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///
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/// This level should be used if the system is unusable.
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///
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/// Equivalent to the kernel's `dev_emerg` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_emerg!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_emerg {
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($($f:tt)*) => { $crate::dev_printk!(pr_emerg, $($f)*); }
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}
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/// Prints an alert-level message (level 1) prefixed with device information.
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///
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/// This level should be used if action must be taken immediately.
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///
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/// Equivalent to the kernel's `dev_alert` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_alert!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_alert {
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($($f:tt)*) => { $crate::dev_printk!(pr_alert, $($f)*); }
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}
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/// Prints a critical-level message (level 2) prefixed with device information.
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///
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/// This level should be used in critical conditions.
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///
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/// Equivalent to the kernel's `dev_crit` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_crit!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_crit {
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($($f:tt)*) => { $crate::dev_printk!(pr_crit, $($f)*); }
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}
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/// Prints an error-level message (level 3) prefixed with device information.
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///
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/// This level should be used in error conditions.
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///
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/// Equivalent to the kernel's `dev_err` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_err!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_err {
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($($f:tt)*) => { $crate::dev_printk!(pr_err, $($f)*); }
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}
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/// Prints a warning-level message (level 4) prefixed with device information.
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///
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/// This level should be used in warning conditions.
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///
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/// Equivalent to the kernel's `dev_warn` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_warn!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_warn {
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($($f:tt)*) => { $crate::dev_printk!(pr_warn, $($f)*); }
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}
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/// Prints a notice-level message (level 5) prefixed with device information.
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///
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/// This level should be used in normal but significant conditions.
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///
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/// Equivalent to the kernel's `dev_notice` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_notice!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_notice {
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($($f:tt)*) => { $crate::dev_printk!(pr_notice, $($f)*); }
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}
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/// Prints an info-level message (level 6) prefixed with device information.
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///
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/// This level should be used for informational messages.
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///
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/// Equivalent to the kernel's `dev_info` macro.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_info!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_info {
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($($f:tt)*) => { $crate::dev_printk!(pr_info, $($f)*); }
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}
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/// Prints a debug-level message (level 7) prefixed with device information.
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///
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/// This level should be used for debug messages.
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///
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/// Equivalent to the kernel's `dev_dbg` macro, except that it doesn't support dynamic debug yet.
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///
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/// Mimics the interface of [`std::print!`]. More information about the syntax is available from
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/// [`core::fmt`] and `alloc::format!`.
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///
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/// [`std::print!`]: https://doc.rust-lang.org/std/macro.print.html
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///
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/// # Examples
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///
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/// ```
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/// # use kernel::device::Device;
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///
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/// fn example(dev: &Device) {
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/// dev_dbg!(dev, "hello {}\n", "there");
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/// }
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/// ```
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#[macro_export]
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macro_rules! dev_dbg {
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($($f:tt)*) => { $crate::dev_printk!(pr_dbg, $($f)*); }
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}
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