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fc6e66f469
Adds a new struct called `Page` that wraps a pointer to `struct page`. This struct is assumed to hold ownership over the page, so that Rust code can allocate and manage pages directly. The page type has various methods for reading and writing into the page. These methods will temporarily map the page to allow the operation. All of these methods use a helper that takes an offset and length, performs bounds checks, and returns a pointer to the given offset in the page. This patch only adds support for pages of order zero, as that is all Rust Binder needs. However, it is written to make it easy to add support for higher-order pages in the future. To do that, you would add a const generic parameter to `Page` that specifies the order. Most of the methods do not need to be adjusted, as the logic for dealing with mapping multiple pages at once can be isolated to just the `with_pointer_into_page` method. Rust Binder needs to manage pages directly as that is how transactions are delivered: Each process has an mmap'd region for incoming transactions. When an incoming transaction arrives, the Binder driver will choose a region in the mmap, allocate and map the relevant pages manually, and copy the incoming transaction directly into the page. This architecture allows the driver to copy transactions directly from the address space of one process to another, without an intermediate copy to a kernel buffer. This code is based on Wedson's page abstractions from the old rust branch, but it has been modified by Alice by removing the incomplete support for higher-order pages, by introducing the `with_*` helpers to consolidate the bounds checking logic into a single place, and various other changes. Co-developed-by: Wedson Almeida Filho <wedsonaf@gmail.com> Signed-off-by: Wedson Almeida Filho <wedsonaf@gmail.com> Reviewed-by: Andreas Hindborg <a.hindborg@samsung.com> Reviewed-by: Trevor Gross <tmgross@umich.edu> Reviewed-by: Benno Lossin <benno.lossin@proton.me> Reviewed-by: Boqun Feng <boqun.feng@gmail.com> Signed-off-by: Alice Ryhl <aliceryhl@google.com> Link: https://lore.kernel.org/r/20240528-alice-mm-v7-4-78222c31b8f4@google.com [ Fixed typos and added a few intra-doc links. - Miguel ] Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
251 lines
10 KiB
Rust
251 lines
10 KiB
Rust
// SPDX-License-Identifier: GPL-2.0
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//! Kernel page allocation and management.
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use crate::{
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alloc::{AllocError, Flags},
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bindings,
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error::code::*,
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error::Result,
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uaccess::UserSliceReader,
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};
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use core::ptr::{self, NonNull};
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/// A bitwise shift for the page size.
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pub const PAGE_SHIFT: usize = bindings::PAGE_SHIFT as usize;
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/// The number of bytes in a page.
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pub const PAGE_SIZE: usize = bindings::PAGE_SIZE;
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/// A bitmask that gives the page containing a given address.
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pub const PAGE_MASK: usize = !(PAGE_SIZE - 1);
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/// A pointer to a page that owns the page allocation.
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///
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/// # Invariants
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///
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/// The pointer is valid, and has ownership over the page.
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pub struct Page {
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page: NonNull<bindings::page>,
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}
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// SAFETY: Pages have no logic that relies on them staying on a given thread, so moving them across
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// threads is safe.
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unsafe impl Send for Page {}
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// SAFETY: Pages have no logic that relies on them not being accessed concurrently, so accessing
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// them concurrently is safe.
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unsafe impl Sync for Page {}
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impl Page {
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/// Allocates a new page.
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///
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/// # Examples
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///
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/// Allocate memory for a page.
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///
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/// ```
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/// use kernel::page::Page;
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///
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/// # fn dox() -> Result<(), kernel::alloc::AllocError> {
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/// let page = Page::alloc_page(GFP_KERNEL)?;
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/// # Ok(()) }
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/// ```
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///
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/// Allocate memory for a page and zero its contents.
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///
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/// ```
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/// use kernel::page::Page;
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///
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/// # fn dox() -> Result<(), kernel::alloc::AllocError> {
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/// let page = Page::alloc_page(GFP_KERNEL | __GFP_ZERO)?;
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/// # Ok(()) }
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/// ```
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pub fn alloc_page(flags: Flags) -> Result<Self, AllocError> {
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// SAFETY: Depending on the value of `gfp_flags`, this call may sleep. Other than that, it
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// is always safe to call this method.
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let page = unsafe { bindings::alloc_pages(flags.as_raw(), 0) };
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let page = NonNull::new(page).ok_or(AllocError)?;
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// INVARIANT: We just successfully allocated a page, so we now have ownership of the newly
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// allocated page. We transfer that ownership to the new `Page` object.
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Ok(Self { page })
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}
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/// Returns a raw pointer to the page.
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pub fn as_ptr(&self) -> *mut bindings::page {
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self.page.as_ptr()
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}
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/// Runs a piece of code with this page mapped to an address.
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///
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/// The page is unmapped when this call returns.
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///
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/// # Using the raw pointer
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///
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/// It is up to the caller to use the provided raw pointer correctly. The pointer is valid for
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/// `PAGE_SIZE` bytes and for the duration in which the closure is called. The pointer might
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/// only be mapped on the current thread, and when that is the case, dereferencing it on other
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/// threads is UB. Other than that, the usual rules for dereferencing a raw pointer apply: don't
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/// cause data races, the memory may be uninitialized, and so on.
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///
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/// If multiple threads map the same page at the same time, then they may reference with
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/// different addresses. However, even if the addresses are different, the underlying memory is
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/// still the same for these purposes (e.g., it's still a data race if they both write to the
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/// same underlying byte at the same time).
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fn with_page_mapped<T>(&self, f: impl FnOnce(*mut u8) -> T) -> T {
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// SAFETY: `page` is valid due to the type invariants on `Page`.
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let mapped_addr = unsafe { bindings::kmap_local_page(self.as_ptr()) };
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let res = f(mapped_addr.cast());
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// This unmaps the page mapped above.
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//
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// SAFETY: Since this API takes the user code as a closure, it can only be used in a manner
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// where the pages are unmapped in reverse order. This is as required by `kunmap_local`.
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//
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// In other words, if this call to `kunmap_local` happens when a different page should be
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// unmapped first, then there must necessarily be a call to `kmap_local_page` other than the
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// call just above in `with_page_mapped` that made that possible. In this case, it is the
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// unsafe block that wraps that other call that is incorrect.
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unsafe { bindings::kunmap_local(mapped_addr) };
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res
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}
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/// Runs a piece of code with a raw pointer to a slice of this page, with bounds checking.
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///
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/// If `f` is called, then it will be called with a pointer that points at `off` bytes into the
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/// page, and the pointer will be valid for at least `len` bytes. The pointer is only valid on
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/// this task, as this method uses a local mapping.
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///
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/// If `off` and `len` refers to a region outside of this page, then this method returns
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/// [`EINVAL`] and does not call `f`.
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///
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/// # Using the raw pointer
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///
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/// It is up to the caller to use the provided raw pointer correctly. The pointer is valid for
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/// `len` bytes and for the duration in which the closure is called. The pointer might only be
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/// mapped on the current thread, and when that is the case, dereferencing it on other threads
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/// is UB. Other than that, the usual rules for dereferencing a raw pointer apply: don't cause
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/// data races, the memory may be uninitialized, and so on.
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///
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/// If multiple threads map the same page at the same time, then they may reference with
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/// different addresses. However, even if the addresses are different, the underlying memory is
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/// still the same for these purposes (e.g., it's still a data race if they both write to the
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/// same underlying byte at the same time).
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fn with_pointer_into_page<T>(
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&self,
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off: usize,
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len: usize,
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f: impl FnOnce(*mut u8) -> Result<T>,
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) -> Result<T> {
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let bounds_ok = off <= PAGE_SIZE && len <= PAGE_SIZE && (off + len) <= PAGE_SIZE;
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if bounds_ok {
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self.with_page_mapped(move |page_addr| {
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// SAFETY: The `off` integer is at most `PAGE_SIZE`, so this pointer offset will
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// result in a pointer that is in bounds or one off the end of the page.
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f(unsafe { page_addr.add(off) })
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})
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} else {
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Err(EINVAL)
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}
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}
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/// Maps the page and reads from it into the given buffer.
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///
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/// This method will perform bounds checks on the page offset. If `offset .. offset+len` goes
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/// outside of the page, then this call returns [`EINVAL`].
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///
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/// # Safety
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///
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/// * Callers must ensure that `dst` is valid for writing `len` bytes.
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/// * Callers must ensure that this call does not race with a write to the same page that
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/// overlaps with this read.
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pub unsafe fn read_raw(&self, dst: *mut u8, offset: usize, len: usize) -> Result {
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self.with_pointer_into_page(offset, len, move |src| {
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// SAFETY: If `with_pointer_into_page` calls into this closure, then
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// it has performed a bounds check and guarantees that `src` is
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// valid for `len` bytes.
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//
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// There caller guarantees that there is no data race.
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unsafe { ptr::copy_nonoverlapping(src, dst, len) };
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Ok(())
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})
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}
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/// Maps the page and writes into it from the given buffer.
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///
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/// This method will perform bounds checks on the page offset. If `offset .. offset+len` goes
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/// outside of the page, then this call returns [`EINVAL`].
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///
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/// # Safety
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///
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/// * Callers must ensure that `src` is valid for reading `len` bytes.
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/// * Callers must ensure that this call does not race with a read or write to the same page
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/// that overlaps with this write.
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pub unsafe fn write_raw(&self, src: *const u8, offset: usize, len: usize) -> Result {
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self.with_pointer_into_page(offset, len, move |dst| {
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// SAFETY: If `with_pointer_into_page` calls into this closure, then it has performed a
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// bounds check and guarantees that `dst` is valid for `len` bytes.
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//
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// There caller guarantees that there is no data race.
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unsafe { ptr::copy_nonoverlapping(src, dst, len) };
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Ok(())
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})
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}
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/// Maps the page and zeroes the given slice.
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///
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/// This method will perform bounds checks on the page offset. If `offset .. offset+len` goes
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/// outside of the page, then this call returns [`EINVAL`].
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///
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/// # Safety
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///
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/// Callers must ensure that this call does not race with a read or write to the same page that
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/// overlaps with this write.
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pub unsafe fn fill_zero_raw(&self, offset: usize, len: usize) -> Result {
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self.with_pointer_into_page(offset, len, move |dst| {
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// SAFETY: If `with_pointer_into_page` calls into this closure, then it has performed a
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// bounds check and guarantees that `dst` is valid for `len` bytes.
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//
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// There caller guarantees that there is no data race.
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unsafe { ptr::write_bytes(dst, 0u8, len) };
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Ok(())
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})
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}
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/// Copies data from userspace into this page.
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///
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/// This method will perform bounds checks on the page offset. If `offset .. offset+len` goes
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/// outside of the page, then this call returns [`EINVAL`].
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///
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/// Like the other `UserSliceReader` methods, data races are allowed on the userspace address.
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/// However, they are not allowed on the page you are copying into.
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///
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/// # Safety
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///
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/// Callers must ensure that this call does not race with a read or write to the same page that
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/// overlaps with this write.
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pub unsafe fn copy_from_user_slice_raw(
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&self,
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reader: &mut UserSliceReader,
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offset: usize,
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len: usize,
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) -> Result {
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self.with_pointer_into_page(offset, len, move |dst| {
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// SAFETY: If `with_pointer_into_page` calls into this closure, then it has performed a
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// bounds check and guarantees that `dst` is valid for `len` bytes. Furthermore, we have
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// exclusive access to the slice since the caller guarantees that there are no races.
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reader.read_raw(unsafe { core::slice::from_raw_parts_mut(dst.cast(), len) })
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})
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}
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}
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impl Drop for Page {
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fn drop(&mut self) {
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// SAFETY: By the type invariants, we have ownership of the page and can free it.
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unsafe { bindings::__free_pages(self.page.as_ptr(), 0) };
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}
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}
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