Mercurial > hg-stable
view rust/hg-cpython/src/dirstate/owning.rs @ 47137:d8ac62374943
dirstate-tree: Make `DirstateMap` borrow from a bytes buffer
… that has the contents of the `.hg/dirstate` file.
This only applies to the tree-based flavor of `DirstateMap`.
For now only the entire `&[u8]` slice is stored, so this is not useful yet.
Adding a lifetime parameter to the `DirstateMap` struct (in hg-core) makes
Python bindings non-trivial because we keep that struct in a Python object
that has a dynamic lifetime tied to Python’s reference-counting and GC.
As long as we keep the `PyBytes` that owns the borrowed bytes buffer next to
the borrowing struct, the buffer will live long enough for the borrows to stay
valid. However this relationship cannot be expressed in safe Rust code in a
way that would statisfy they borrow-checker. We use `unsafe` code to erase
that lifetime parameter, and encapsulate it in a safe abstraction similar to
the owning-ref crate: https://docs.rs/owning_ref/
Differential Revision: https://phab.mercurial-scm.org/D10557
author | Simon Sapin <simon.sapin@octobus.net> |
---|---|
date | Fri, 30 Apr 2021 18:24:54 +0200 |
parents | |
children | 1766130fe9ba |
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use cpython::PyBytes; use cpython::Python; use hg::dirstate_tree::dirstate_map::DirstateMap; use hg::DirstateError; use hg::DirstateParents; /// Keep a `DirstateMap<'on_disk>` next to the `on_disk` buffer that it /// borrows. This is similar to the owning-ref crate. /// /// This is similar to [`OwningRef`] which is more limited because it /// represents exactly one `&T` reference next to the value it borrows, as /// opposed to a struct that may contain an arbitrary number of references in /// arbitrarily-nested data structures. /// /// [`OwningRef`]: https://docs.rs/owning_ref/0.4.1/owning_ref/struct.OwningRef.html pub(super) struct OwningDirstateMap { /// Owned handle to a bytes buffer with a stable address. /// /// See <https://docs.rs/owning_ref/0.4.1/owning_ref/trait.StableAddress.html>. on_disk: PyBytes, /// Pointer for `Box<DirstateMap<'on_disk>>`, typed-erased because the /// language cannot represent a lifetime referencing a sibling field. /// This is not quite a self-referencial struct (moving this struct is not /// a problem as it doesn’t change the address of the bytes buffer owned /// by `PyBytes`) but touches similar borrow-checker limitations. ptr: *mut (), } impl OwningDirstateMap { pub fn new( py: Python, on_disk: PyBytes, ) -> Result<(Self, Option<DirstateParents>), DirstateError> { let bytes: &'_ [u8] = on_disk.data(py); let (map, parents) = DirstateMap::new(bytes)?; // Like in `bytes` above, this `'_` lifetime parameter borrows from // the bytes buffer owned by `on_disk`. let ptr: *mut DirstateMap<'_> = Box::into_raw(Box::new(map)); // Erase the pointed type entirely in order to erase the lifetime. let ptr: *mut () = ptr.cast(); Ok((Self { on_disk, ptr }, parents)) } pub fn get_mut<'a>(&'a mut self) -> &'a mut DirstateMap<'a> { // SAFETY: We cast the type-erased pointer back to the same type it had // in `new`, except with a different lifetime parameter. This time we // connect the lifetime to that of `self`. This cast is valid because // `self` owns the same `PyBytes` whose buffer `DirstateMap` // references. That buffer has a stable memory address because the byte // string value of a `PyBytes` is immutable. let ptr: *mut DirstateMap<'a> = self.ptr.cast(); // SAFETY: we dereference that pointer, connecting the lifetime of the // new `&mut` to that of `self`. This is valid because the // raw pointer is to a boxed value, and `self` owns that box. unsafe { &mut *ptr } } pub fn get<'a>(&'a self) -> &'a DirstateMap<'a> { // SAFETY: same reasoning as in `get_mut` above. let ptr: *mut DirstateMap<'a> = self.ptr.cast(); unsafe { &*ptr } } } impl Drop for OwningDirstateMap { fn drop(&mut self) { // Silence a "field is never read" warning, and demonstrate that this // value is still alive. let _ = &self.on_disk; // SAFETY: this cast is the same as in `get_mut`, and is valid for the // same reason. `self.on_disk` still exists at this point, drop glue // will drop it implicitly after this `drop` method returns. let ptr: *mut DirstateMap<'_> = self.ptr.cast(); // SAFETY: `Box::from_raw` takes ownership of the box away from `self`. // This is fine because drop glue does nothig for `*mut ()` and we’re // in `drop`, so `get` and `get_mut` cannot be called again. unsafe { drop(Box::from_raw(ptr)) } } } fn _static_assert_is_send<T: Send>() {} fn _static_assert_fields_are_send() { _static_assert_is_send::<PyBytes>(); _static_assert_is_send::<Box<DirstateMap<'_>>>(); } // SAFETY: we don’t get this impl implicitly because `*mut (): !Send` because // thread-safety of raw pointers is unknown in the general case. However this // particular raw pointer represents a `Box<DirstateMap<'on_disk>>` that we // own. Since that `Box` and `PyBytes` are both `Send` as shown in above, it // is sound to mark this struct as `Send` too. unsafe impl Send for OwningDirstateMap {}