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Linux/rust/kernel/sync/locked_by.rs

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Diff markup

Differences between /rust/kernel/sync/locked_by.rs (Architecture alpha) and /rust/kernel/sync/locked_by.rs (Architecture m68k)


  1 // SPDX-License-Identifier: GPL-2.0                 1 // SPDX-License-Identifier: GPL-2.0
  2                                                     2 
  3 //! A wrapper for data protected by a lock tha      3 //! A wrapper for data protected by a lock that does not wrap it.
  4                                                     4 
  5 use super::{lock::Backend, lock::Lock};             5 use super::{lock::Backend, lock::Lock};
  6 use crate::build_assert;                            6 use crate::build_assert;
  7 use core::{cell::UnsafeCell, mem::size_of, ptr      7 use core::{cell::UnsafeCell, mem::size_of, ptr};
  8                                                     8 
  9 /// Allows access to some data to be serialise      9 /// Allows access to some data to be serialised by a lock that does not wrap it.
 10 ///                                                10 ///
 11 /// In most cases, data protected by a lock is     11 /// In most cases, data protected by a lock is wrapped by the appropriate lock type, e.g.,
 12 /// [`Mutex`] or [`SpinLock`]. [`LockedBy`] is     12 /// [`Mutex`] or [`SpinLock`]. [`LockedBy`] is meant for cases when this is not possible.
 13 /// For example, if a container has a lock and     13 /// For example, if a container has a lock and some data in the contained elements needs
 14 /// to be protected by the same lock.              14 /// to be protected by the same lock.
 15 ///                                                15 ///
 16 /// [`LockedBy`] wraps the data in lieu of ano     16 /// [`LockedBy`] wraps the data in lieu of another locking primitive, and only allows access to it
 17 /// when the caller shows evidence that the 'e     17 /// when the caller shows evidence that the 'external' lock is locked. It panics if the evidence
 18 /// refers to the wrong instance of the lock.      18 /// refers to the wrong instance of the lock.
 19 ///                                                19 ///
 20 /// [`Mutex`]: super::Mutex                        20 /// [`Mutex`]: super::Mutex
 21 /// [`SpinLock`]: super::SpinLock                  21 /// [`SpinLock`]: super::SpinLock
 22 ///                                                22 ///
 23 /// # Examples                                     23 /// # Examples
 24 ///                                                24 ///
 25 /// The following is an example for illustrati     25 /// The following is an example for illustrative purposes: `InnerDirectory::bytes_used` is an
 26 /// aggregate of all `InnerFile::bytes_used` a     26 /// aggregate of all `InnerFile::bytes_used` and must be kept consistent; so we wrap `InnerFile` in
 27 /// a `LockedBy` so that it shares a lock with     27 /// a `LockedBy` so that it shares a lock with `InnerDirectory`. This allows us to enforce at
 28 /// compile-time that access to `InnerFile` is     28 /// compile-time that access to `InnerFile` is only granted when an `InnerDirectory` is also
 29 /// locked; we enforce at run time that the ri     29 /// locked; we enforce at run time that the right `InnerDirectory` is locked.
 30 ///                                                30 ///
 31 /// ```                                            31 /// ```
 32 /// use kernel::sync::{LockedBy, Mutex};           32 /// use kernel::sync::{LockedBy, Mutex};
 33 ///                                                33 ///
 34 /// struct InnerFile {                             34 /// struct InnerFile {
 35 ///     bytes_used: u64,                           35 ///     bytes_used: u64,
 36 /// }                                              36 /// }
 37 ///                                                37 ///
 38 /// struct File {                                  38 /// struct File {
 39 ///     _ino: u32,                                 39 ///     _ino: u32,
 40 ///     inner: LockedBy<InnerFile, InnerDirect     40 ///     inner: LockedBy<InnerFile, InnerDirectory>,
 41 /// }                                              41 /// }
 42 ///                                                42 ///
 43 /// struct InnerDirectory {                        43 /// struct InnerDirectory {
 44 ///     /// The sum of the bytes used by all f     44 ///     /// The sum of the bytes used by all files.
 45 ///     bytes_used: u64,                           45 ///     bytes_used: u64,
 46 ///     _files: Vec<File>,                         46 ///     _files: Vec<File>,
 47 /// }                                              47 /// }
 48 ///                                                48 ///
 49 /// struct Directory {                             49 /// struct Directory {
 50 ///     _ino: u32,                                 50 ///     _ino: u32,
 51 ///     inner: Mutex<InnerDirectory>,              51 ///     inner: Mutex<InnerDirectory>,
 52 /// }                                              52 /// }
 53 ///                                                53 ///
 54 /// /// Prints `bytes_used` from both the dire     54 /// /// Prints `bytes_used` from both the directory and file.
 55 /// fn print_bytes_used(dir: &Directory, file:     55 /// fn print_bytes_used(dir: &Directory, file: &File) {
 56 ///     let guard = dir.inner.lock();              56 ///     let guard = dir.inner.lock();
 57 ///     let inner_file = file.inner.access(&gu     57 ///     let inner_file = file.inner.access(&guard);
 58 ///     pr_info!("{} {}", guard.bytes_used, in     58 ///     pr_info!("{} {}", guard.bytes_used, inner_file.bytes_used);
 59 /// }                                              59 /// }
 60 ///                                                60 ///
 61 /// /// Increments `bytes_used` for both the d     61 /// /// Increments `bytes_used` for both the directory and file.
 62 /// fn inc_bytes_used(dir: &Directory, file: &     62 /// fn inc_bytes_used(dir: &Directory, file: &File) {
 63 ///     let mut guard = dir.inner.lock();          63 ///     let mut guard = dir.inner.lock();
 64 ///     guard.bytes_used += 10;                    64 ///     guard.bytes_used += 10;
 65 ///                                                65 ///
 66 ///     let file_inner = file.inner.access_mut     66 ///     let file_inner = file.inner.access_mut(&mut guard);
 67 ///     file_inner.bytes_used += 10;               67 ///     file_inner.bytes_used += 10;
 68 /// }                                              68 /// }
 69 ///                                                69 ///
 70 /// /// Creates a new file.                        70 /// /// Creates a new file.
 71 /// fn new_file(ino: u32, dir: &Directory) ->      71 /// fn new_file(ino: u32, dir: &Directory) -> File {
 72 ///     File {                                     72 ///     File {
 73 ///         _ino: ino,                             73 ///         _ino: ino,
 74 ///         inner: LockedBy::new(&dir.inner, I     74 ///         inner: LockedBy::new(&dir.inner, InnerFile { bytes_used: 0 }),
 75 ///     }                                          75 ///     }
 76 /// }                                              76 /// }
 77 /// ```                                            77 /// ```
 78 pub struct LockedBy<T: ?Sized, U: ?Sized> {        78 pub struct LockedBy<T: ?Sized, U: ?Sized> {
 79     owner: *const U,                               79     owner: *const U,
 80     data: UnsafeCell<T>,                           80     data: UnsafeCell<T>,
 81 }                                                  81 }
 82                                                    82 
 83 // SAFETY: `LockedBy` can be transferred acros     83 // SAFETY: `LockedBy` can be transferred across thread boundaries iff the data it protects can.
 84 unsafe impl<T: ?Sized + Send, U: ?Sized> Send      84 unsafe impl<T: ?Sized + Send, U: ?Sized> Send for LockedBy<T, U> {}
 85                                                    85 
 86 // SAFETY: If `T` is not `Sync`, then parallel     86 // SAFETY: If `T` is not `Sync`, then parallel shared access to this `LockedBy` allows you to use
 87 // `access_mut` to hand out `&mut T` on one th     87 // `access_mut` to hand out `&mut T` on one thread at the time. The requirement that `T: Send` is
 88 // sufficient to allow that.                       88 // sufficient to allow that.
 89 //                                                 89 //
 90 // If `T` is `Sync`, then the `access` method      90 // If `T` is `Sync`, then the `access` method also becomes available, which allows you to obtain
 91 // several `&T` from several threads at once.      91 // several `&T` from several threads at once. However, this is okay as `T` is `Sync`.
 92 unsafe impl<T: ?Sized + Send, U: ?Sized> Sync      92 unsafe impl<T: ?Sized + Send, U: ?Sized> Sync for LockedBy<T, U> {}
 93                                                    93 
 94 impl<T, U> LockedBy<T, U> {                        94 impl<T, U> LockedBy<T, U> {
 95     /// Constructs a new instance of [`LockedB     95     /// Constructs a new instance of [`LockedBy`].
 96     ///                                            96     ///
 97     /// It stores a raw pointer to the owner t     97     /// It stores a raw pointer to the owner that is never dereferenced. It is only used to ensure
 98     /// that the right owner is being used to      98     /// that the right owner is being used to access the protected data. If the owner is freed, the
 99     /// data becomes inaccessible; if another      99     /// data becomes inaccessible; if another instance of the owner is allocated *on the same
100     /// memory location*, the data becomes acc    100     /// memory location*, the data becomes accessible again: none of this affects memory safety
101     /// because in any case at most one thread    101     /// because in any case at most one thread (or CPU) can access the protected data at a time.
102     pub fn new<B: Backend>(owner: &Lock<U, B>,    102     pub fn new<B: Backend>(owner: &Lock<U, B>, data: T) -> Self {
103         build_assert!(                            103         build_assert!(
104             size_of::<Lock<U, B>>() > 0,          104             size_of::<Lock<U, B>>() > 0,
105             "The lock type cannot be a ZST bec    105             "The lock type cannot be a ZST because it may be impossible to distinguish instances"
106         );                                        106         );
107         Self {                                    107         Self {
108             owner: owner.data.get(),              108             owner: owner.data.get(),
109             data: UnsafeCell::new(data),          109             data: UnsafeCell::new(data),
110         }                                         110         }
111     }                                             111     }
112 }                                                 112 }
113                                                   113 
114 impl<T: ?Sized, U> LockedBy<T, U> {               114 impl<T: ?Sized, U> LockedBy<T, U> {
115     /// Returns a reference to the protected d    115     /// Returns a reference to the protected data when the caller provides evidence (via a
116     /// reference) that the owner is locked.      116     /// reference) that the owner is locked.
117     ///                                           117     ///
118     /// `U` cannot be a zero-sized type (ZST)     118     /// `U` cannot be a zero-sized type (ZST) because there are ways to get an `&U` that matches
119     /// the data protected by the lock without    119     /// the data protected by the lock without actually holding it.
120     ///                                           120     ///
121     /// # Panics                                  121     /// # Panics
122     ///                                           122     ///
123     /// Panics if `owner` is different from th    123     /// Panics if `owner` is different from the data protected by the lock used in
124     /// [`new`](LockedBy::new).                   124     /// [`new`](LockedBy::new).
125     pub fn access<'a>(&'a self, owner: &'a U)     125     pub fn access<'a>(&'a self, owner: &'a U) -> &'a T
126     where                                         126     where
127         T: Sync,                                  127         T: Sync,
128     {                                             128     {
129         build_assert!(                            129         build_assert!(
130             size_of::<U>() > 0,                   130             size_of::<U>() > 0,
131             "`U` cannot be a ZST because `owne    131             "`U` cannot be a ZST because `owner` wouldn't be unique"
132         );                                        132         );
133         if !ptr::eq(owner, self.owner) {          133         if !ptr::eq(owner, self.owner) {
134             panic!("mismatched owners");          134             panic!("mismatched owners");
135         }                                         135         }
136                                                   136 
137         // SAFETY: `owner` is evidence that th    137         // SAFETY: `owner` is evidence that there are only shared references to the owner for the
138         // duration of 'a, so it's not possibl    138         // duration of 'a, so it's not possible to use `Self::access_mut` to obtain a mutable
139         // reference to the inner value that a    139         // reference to the inner value that aliases with this shared reference. The type is `Sync`
140         // so there are no other requirements.    140         // so there are no other requirements.
141         unsafe { &*self.data.get() }              141         unsafe { &*self.data.get() }
142     }                                             142     }
143                                                   143 
144     /// Returns a mutable reference to the pro    144     /// Returns a mutable reference to the protected data when the caller provides evidence (via a
145     /// mutable owner) that the owner is locke    145     /// mutable owner) that the owner is locked mutably.
146     ///                                           146     ///
147     /// `U` cannot be a zero-sized type (ZST)     147     /// `U` cannot be a zero-sized type (ZST) because there are ways to get an `&mut U` that
148     /// matches the data protected by the lock    148     /// matches the data protected by the lock without actually holding it.
149     ///                                           149     ///
150     /// Showing a mutable reference to the own    150     /// Showing a mutable reference to the owner is sufficient because we know no other references
151     /// can exist to it.                          151     /// can exist to it.
152     ///                                           152     ///
153     /// # Panics                                  153     /// # Panics
154     ///                                           154     ///
155     /// Panics if `owner` is different from th    155     /// Panics if `owner` is different from the data protected by the lock used in
156     /// [`new`](LockedBy::new).                   156     /// [`new`](LockedBy::new).
157     pub fn access_mut<'a>(&'a self, owner: &'a    157     pub fn access_mut<'a>(&'a self, owner: &'a mut U) -> &'a mut T {
158         build_assert!(                            158         build_assert!(
159             size_of::<U>() > 0,                   159             size_of::<U>() > 0,
160             "`U` cannot be a ZST because `owne    160             "`U` cannot be a ZST because `owner` wouldn't be unique"
161         );                                        161         );
162         if !ptr::eq(owner, self.owner) {          162         if !ptr::eq(owner, self.owner) {
163             panic!("mismatched owners");          163             panic!("mismatched owners");
164         }                                         164         }
165                                                   165 
166         // SAFETY: `owner` is evidence that th    166         // SAFETY: `owner` is evidence that there is only one reference to the owner.
167         unsafe { &mut *self.data.get() }          167         unsafe { &mut *self.data.get() }
168     }                                             168     }
169 }                                                 169 }
                                                      

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