Module bitvec::store

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§Storage Memory Description

This module defines the bitvec memory model used to interface bit-slice regions to raw memory, and manage type-state changes as demanded by the region descriptor.

The BitStore trait is the primary type-level description of bitvec views of the memory space and provides the runtime system that drives the crate memory model.

§Memory Model

bitvec considers all memory within BitSlice regions as if it were composed of discrete bits, each divisible and independent from its neighbors, just as the Rust memory model considers elements T in a slice [T]. Much as ordinary byte slices [u8] provide an API where each byte is distinct and independent from its neighbors, but the underlying processor silicon clusters them in words and cachelines, both the processor silicon and the Rust compiler require that bits in a BitSlice be grouped into memory elements, and collectively subjected to aliasing rules within their batch.

bitvec manages this through the BitStore trait. It is implemented on three type families available from the Rust standard libraries:

bitvec receives memory regions typed with one of these families and wraps it in one of its data structures based on the BitSlice region. The target processor is responsible for handling any contention between T: BitStore memory elements; this is irrelevant to the bitvec model. bitvec is solely responsible for proving to the Rust compiler that all memory accesses through its types are correctly managed according to the &/&mut shared/exclusion reference model, and the UnsafeCell shared-mutation model.

Through BitStore, bitvec is able to demonstrate that &mut BitSlice references to a region of bits have no other BitSlice references capable of viewing those bits. However, multiple &mut BitSlice references may view the same underlying memory element, which is undefined behavior in the Rust compiler unless additional synchronization and mutual exclusion is provided to prevent racing writes and unsynchronized reads.

As such, BitStore provides a closed type-system graph that the BitSlice region API uses to mark events that can induce aliasing over memory locations. When a &mut BitSlice<_, T> typed with an ordinary unsigned integer uses any of the APIs that call [.split_at_mut()], it transitions its BitStore parameter to &mut BitSlice<_, T::Alias>. The ::Alias associated type is always a type that manages aliasing references to a single memory location: either an atomic unsigned integer T or a Cell<T>. The Rust standard library guarantees that these types will behave correctly when multiple references to a single location attempt to perform memory transactions.

The atomic and Cell types stay as themselves when BitSlice introduces aliasing conditions, as they are already alias-aware.

Foreign implementations of BitStore are required to follow the conventions used here: unsynchronized storage types must create marker newtypes over an appropriate synchronized type for ::Alias and uphold the “only &mut has write permission” rule, while synchronized storage types do not need to perform these transitions, but may never transition to an unsynchronized type either.

The bitvec memory description model as implemented in the domain module is able to perform the inverse transition: where a BitSlice can demonstrate a static awareness that the &/&mut exclusion rules are satisfied for a particular element slice [T], it may apply the ::Unalias marker to undo any ::Aliasing, and present a type that has no more aliasing protection than that with which the memory region was initially declared.

Namely, this means that the atomic and Cell wrappers will never be removed from a region that had them before it was given to bitvec, while a region of ordinary integers may regain the ability to be viewed without synchrony guards if bitvec can prove safety in the domain module.

In order to retain bitvec’s promise that an &mut BitSlice<_, T> has the sole right of observation for all bits in its region, the unsigned integers alias to a crate-internal wrapper over the alias-capable standard-library types. This wrapper forbids mutation through shared references, so two BitSlice references that alias a memory location, but do not overlap in bits, may not be coërced to interfere with each other.

Traits§