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 . on_disk: PyBytes, /// Pointer for `Box>`, 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, use_dirstate_v2: bool, ) -> Result<(Self, Option), DirstateError> { let bytes: &'_ [u8] = on_disk.data(py); let (map, parents) = if use_dirstate_v2 { DirstateMap::new_v2(bytes)? } else { DirstateMap::new_v1(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() {} fn _static_assert_fields_are_send() { _static_assert_is_send::(); _static_assert_is_send::>>(); } // 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>` 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 {}