rust/kernel/block/mq/gen_disk.rs - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0

 //! Generic disk abstraction.
 //!
 //! C header: [`include/linux/blkdev.h`](srctree/include/linux/blkdev.h)
 //! C header: [`include/linux/blk_mq.h`](srctree/include/linux/blk_mq.h)

 use crate::block::mq::{raw_writer::RawWriter, Operations, TagSet};
 use crate::{bindings, error::from_err_ptr, error::Result, sync::Arc};
 use crate::{error, static_lock_class};
 use core::fmt::{self, Write};

 /// A builder for [`GenDisk`].
 ///
 /// Use this struct to configure and add new [`GenDisk`] to the VFS.
 pub struct GenDiskBuilder {
     rotational: bool,
     logical_block_size: u32,
     physical_block_size: u32,
     capacity_sectors: u64,
 }

 impl Default for GenDiskBuilder {
     fn default() -> Self {
         Self {
             rotational: false,
             logical_block_size: bindings::PAGE_SIZE as u32,
             physical_block_size: bindings::PAGE_SIZE as u32,
             capacity_sectors: 0,
         }
     }
 }

 impl GenDiskBuilder {
     /// Create a new instance.
     pub fn new() -> Self {
         Self::default()
     }

     /// Set the rotational media attribute for the device to be built.
     pub fn rotational(mut self, rotational: bool) -> Self {
         self.rotational = rotational;
         self
     }

     /// Validate block size by verifying that it is between 512 and `PAGE_SIZE`,
     /// and that it is a power of two.
     fn validate_block_size(size: u32) -> Result<()> {
         if !(512..=bindings::PAGE_SIZE as u32).contains(&size) || !size.is_power_of_two() {
             Err(error::code::EINVAL)
         } else {
             Ok(())
         }
     }

     /// Set the logical block size of the device to be built.
     ///
     /// This method will check that block size is a power of two and between 512
     /// and 4096. If not, an error is returned and the block size is not set.
     ///
     /// This is the smallest unit the storage device can address. It is
     /// typically 4096 bytes.
     pub fn logical_block_size(mut self, block_size: u32) -> Result<Self> {
         Self::validate_block_size(block_size)?;
         self.logical_block_size = block_size;
         Ok(self)
     }

     /// Set the physical block size of the device to be built.
     ///
     /// This method will check that block size is a power of two and between 512
     /// and 4096. If not, an error is returned and the block size is not set.
     ///
     /// This is the smallest unit a physical storage device can write
     /// atomically. It is usually the same as the logical block size but may be
     /// bigger. One example is SATA drives with 4096 byte physical block size
     /// that expose a 512 byte logical block size to the operating system.
     pub fn physical_block_size(mut self, block_size: u32) -> Result<Self> {
         Self::validate_block_size(block_size)?;
         self.physical_block_size = block_size;
         Ok(self)
     }

     /// Set the capacity of the device to be built, in sectors (512 bytes).
     pub fn capacity_sectors(mut self, capacity: u64) -> Self {
         self.capacity_sectors = capacity;
         self
     }

     /// Build a new `GenDisk` and add it to the VFS.
     pub fn build<T: Operations>(
         self,
         name: fmt::Arguments<'_>,
         tagset: Arc<TagSet<T>>,
     ) -> Result<GenDisk<T>> {
         // SAFETY: `bindings::queue_limits` contain only fields that are valid when zeroed.
         let mut lim: bindings::queue_limits = unsafe { core::mem::zeroed() };

         lim.logical_block_size = self.logical_block_size;
         lim.physical_block_size = self.physical_block_size;
         if self.rotational {
             lim.features = bindings::BLK_FEAT_ROTATIONAL;
         }

         // SAFETY: `tagset.raw_tag_set()` points to a valid and initialized tag set
         let gendisk = from_err_ptr(unsafe {
             bindings::__blk_mq_alloc_disk(
                 tagset.raw_tag_set(),
                 &mut lim,
                 core::ptr::null_mut(),
                 static_lock_class!().as_ptr(),
             )
         })?;

         const TABLE: bindings::block_device_operations = bindings::block_device_operations {
             submit_bio: None,
             open: None,
             release: None,
             ioctl: None,
             compat_ioctl: None,
             check_events: None,
             unlock_native_capacity: None,
             getgeo: None,
             set_read_only: None,
             swap_slot_free_notify: None,
             report_zones: None,
             devnode: None,
             alternative_gpt_sector: None,
             get_unique_id: None,
             // TODO: Set to THIS_MODULE. Waiting for const_refs_to_static feature to
             // be merged (unstable in rustc 1.78 which is staged for linux 6.10)
             // https://github.com/rust-lang/rust/issues/119618
             owner: core::ptr::null_mut(),
             pr_ops: core::ptr::null_mut(),
             free_disk: None,
             poll_bio: None,
         };

         // SAFETY: `gendisk` is a valid pointer as we initialized it above
         unsafe { (*gendisk).fops = &TABLE };

         let mut raw_writer = RawWriter::from_array(
             // SAFETY: `gendisk` points to a valid and initialized instance. We
             // have exclusive access, since the disk is not added to the VFS
             // yet.
             unsafe { &mut (*gendisk).disk_name },
         )?;
         raw_writer.write_fmt(name)?;
         raw_writer.write_char('\0')?;

         // SAFETY: `gendisk` points to a valid and initialized instance of
         // `struct gendisk`. `set_capacity` takes a lock to synchronize this
         // operation, so we will not race.
         unsafe { bindings::set_capacity(gendisk, self.capacity_sectors) };

         crate::error::to_result(
             // SAFETY: `gendisk` points to a valid and initialized instance of
             // `struct gendisk`.
             unsafe {
                 bindings::device_add_disk(core::ptr::null_mut(), gendisk, core::ptr::null_mut())
             },
         )?;

         // INVARIANT: `gendisk` was initialized above.
         // INVARIANT: `gendisk` was added to the VFS via `device_add_disk` above.
         Ok(GenDisk {
             _tagset: tagset,
             gendisk,
         })
     }
 }

 /// A generic block device.
 ///
 /// # Invariants
 ///
 ///  - `gendisk` must always point to an initialized and valid `struct gendisk`.
 ///  - `gendisk` was added to the VFS through a call to
 ///     `bindings::device_add_disk`.
 pub struct GenDisk<T: Operations> {
     _tagset: Arc<TagSet<T>>,
     gendisk: *mut bindings::gendisk,
 }

 // SAFETY: `GenDisk` is an owned pointer to a `struct gendisk` and an `Arc` to a
 // `TagSet` It is safe to send this to other threads as long as T is Send.
 unsafe impl<T: Operations + Send> Send for GenDisk<T> {}

 impl<T: Operations> Drop for GenDisk<T> {
     fn drop(&mut self) {
         // SAFETY: By type invariant, `self.gendisk` points to a valid and
         // initialized instance of `struct gendisk`, and it was previously added
         // to the VFS.
         unsafe { bindings::del_gendisk(self.gendisk) };
     }
 }
	// SPDX-License-Identifier: GPL-2.0

	//! Generic disk abstraction.
	//!
	//! C header: [`include/linux/blkdev.h`](srctree/include/linux/blkdev.h)
	//! C header: [`include/linux/blk_mq.h`](srctree/include/linux/blk_mq.h)

	use crate::block::mq::{raw_writer::RawWriter, Operations, TagSet};
	use crate::{bindings, error::from_err_ptr, error::Result, sync::Arc};
	use crate::{error, static_lock_class};
	use core::fmt::{self, Write};

	/// A builder for [`GenDisk`].
	///
	/// Use this struct to configure and add new [`GenDisk`] to the VFS.
	pub struct GenDiskBuilder {
	rotational: bool,
	logical_block_size: u32,
	physical_block_size: u32,
	capacity_sectors: u64,
	}

	impl Default for GenDiskBuilder {
	fn default() -> Self {
	Self {
	rotational: false,
	logical_block_size: bindings::PAGE_SIZE as u32,
	physical_block_size: bindings::PAGE_SIZE as u32,
	capacity_sectors: 0,
	}
	}
	}

	impl GenDiskBuilder {
	/// Create a new instance.
	pub fn new() -> Self {
	Self::default()
	}

	/// Set the rotational media attribute for the device to be built.
	pub fn rotational(mut self, rotational: bool) -> Self {
	self.rotational = rotational;
	self
	}

	/// Validate block size by verifying that it is between 512 and `PAGE_SIZE`,
	/// and that it is a power of two.
	fn validate_block_size(size: u32) -> Result<()> {
	if !(512..=bindings::PAGE_SIZE as u32).contains(&size) \|\| !size.is_power_of_two() {
	Err(error::code::EINVAL)
	} else {
	Ok(())
	}
	}

	/// Set the logical block size of the device to be built.
	///
	/// This method will check that block size is a power of two and between 512
	/// and 4096. If not, an error is returned and the block size is not set.
	///
	/// This is the smallest unit the storage device can address. It is
	/// typically 4096 bytes.
	pub fn logical_block_size(mut self, block_size: u32) -> Result<Self> {
	Self::validate_block_size(block_size)?;
	self.logical_block_size = block_size;
	Ok(self)
	}

	/// Set the physical block size of the device to be built.
	///
	/// This method will check that block size is a power of two and between 512
	/// and 4096. If not, an error is returned and the block size is not set.
	///
	/// This is the smallest unit a physical storage device can write
	/// atomically. It is usually the same as the logical block size but may be
	/// bigger. One example is SATA drives with 4096 byte physical block size
	/// that expose a 512 byte logical block size to the operating system.
	pub fn physical_block_size(mut self, block_size: u32) -> Result<Self> {
	Self::validate_block_size(block_size)?;
	self.physical_block_size = block_size;
	Ok(self)
	}

	/// Set the capacity of the device to be built, in sectors (512 bytes).
	pub fn capacity_sectors(mut self, capacity: u64) -> Self {
	self.capacity_sectors = capacity;
	self
	}

	/// Build a new `GenDisk` and add it to the VFS.
	pub fn build<T: Operations>(
	self,
	name: fmt::Arguments<'_>,
	tagset: Arc<TagSet<T>>,
	) -> Result<GenDisk<T>> {
	// SAFETY: `bindings::queue_limits` contain only fields that are valid when zeroed.
	let mut lim: bindings::queue_limits = unsafe { core::mem::zeroed() };

	lim.logical_block_size = self.logical_block_size;
	lim.physical_block_size = self.physical_block_size;
	if self.rotational {
	lim.features = bindings::BLK_FEAT_ROTATIONAL;
	}

	// SAFETY: `tagset.raw_tag_set()` points to a valid and initialized tag set
	let gendisk = from_err_ptr(unsafe {
	bindings::__blk_mq_alloc_disk(
	tagset.raw_tag_set(),
	&mut lim,
	core::ptr::null_mut(),
	static_lock_class!().as_ptr(),
	)
	})?;

	const TABLE: bindings::block_device_operations = bindings::block_device_operations {
	submit_bio: None,
	open: None,
	release: None,
	ioctl: None,
	compat_ioctl: None,
	check_events: None,
	unlock_native_capacity: None,
	getgeo: None,
	set_read_only: None,
	swap_slot_free_notify: None,
	report_zones: None,
	devnode: None,
	alternative_gpt_sector: None,
	get_unique_id: None,
	// TODO: Set to THIS_MODULE. Waiting for const_refs_to_static feature to
	// be merged (unstable in rustc 1.78 which is staged for linux 6.10)
	// https://github.com/rust-lang/rust/issues/119618
	owner: core::ptr::null_mut(),
	pr_ops: core::ptr::null_mut(),
	free_disk: None,
	poll_bio: None,
	};

	// SAFETY: `gendisk` is a valid pointer as we initialized it above
	unsafe { (*gendisk).fops = &TABLE };

	let mut raw_writer = RawWriter::from_array(
	// SAFETY: `gendisk` points to a valid and initialized instance. We
	// have exclusive access, since the disk is not added to the VFS
	// yet.
	unsafe { &mut (*gendisk).disk_name },
	)?;
	raw_writer.write_fmt(name)?;
	raw_writer.write_char('\0')?;

	// SAFETY: `gendisk` points to a valid and initialized instance of
	// `struct gendisk`. `set_capacity` takes a lock to synchronize this
	// operation, so we will not race.
	unsafe { bindings::set_capacity(gendisk, self.capacity_sectors) };

	crate::error::to_result(
	// SAFETY: `gendisk` points to a valid and initialized instance of
	// `struct gendisk`.
	unsafe {
	bindings::device_add_disk(core::ptr::null_mut(), gendisk, core::ptr::null_mut())
	},
	)?;

	// INVARIANT: `gendisk` was initialized above.
	// INVARIANT: `gendisk` was added to the VFS via `device_add_disk` above.
	Ok(GenDisk {
	_tagset: tagset,
	gendisk,
	})
	}
	}

	/// A generic block device.
	///
	/// # Invariants
	///
	/// - `gendisk` must always point to an initialized and valid `struct gendisk`.
	/// - `gendisk` was added to the VFS through a call to
	/// `bindings::device_add_disk`.
	pub struct GenDisk<T: Operations> {
	_tagset: Arc<TagSet<T>>,
	gendisk: *mut bindings::gendisk,
	}

	// SAFETY: `GenDisk` is an owned pointer to a `struct gendisk` and an `Arc` to a
	// `TagSet` It is safe to send this to other threads as long as T is Send.
	unsafe impl<T: Operations + Send> Send for GenDisk<T> {}

	impl<T: Operations> Drop for GenDisk<T> {
	fn drop(&mut self) {
	// SAFETY: By type invariant, `self.gendisk` points to a valid and
	// initialized instance of `struct gendisk`, and it was previously added
	// to the VFS.
	unsafe { bindings::del_gendisk(self.gendisk) };
	}
	}