add initial documentation on API extensions

pull/69/head
Daniel Micay 2018-11-19 06:54:48 -05:00
parent 4d85a61db2
commit c9dfe586b3
1 changed files with 27 additions and 0 deletions

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@ -391,3 +391,30 @@ size for 2048 byte spacing and the next spacing class matches the page size of
4096 bytes on the target platforms. This is the minimum set of small size 4096 bytes on the target platforms. This is the minimum set of small size
classes required to avoid substantial waste from rounding. Further slab classes required to avoid substantial waste from rounding. Further slab
allocation size classes may be offered as an option in the future. allocation size classes may be offered as an option in the future.
# API extensions
The `void free_sized(void *ptr, size_t expected_size)` function exposes the
sized deallocation sanity checks for C. A performance-oriented allocator could
use the same API as an optimization to avoid a potential cache miss from
reading the size from metadata.
The `size_t malloc_object_size(void *ptr)` function returns an *upper bound* on
the accessible size of the relevant object (if any) by querying the malloc
implementation. It's similar to the `__builtin_object_size` intrinsic used by
`_FORTIFY_SOURCE` but via dynamically querying the malloc implementation rather
than determining constant sizes at compile-time. The current implementation is
just a naive placeholder returning much looser upper bounds than the intended
implementation. It's a valid implementation of the API already, but it will
become fully accurate once it's finished. This function is **not** currently
safe to call from signal handlers, but another API will be provided to make
that possible with a compile-time configuration option to avoid the necessary
overhead if the functionality isn't being used (in a way that doesn't change
break API compatibility based on the configuration).
The `size_t malloc_object_size_fast(void *ptr)` is comparable, but avoids
expensive operations like locking or even atomics. It provides significantly
less useful results falling back to higher upper bounds, but is very fast. In
this implementation, it retrieves an upper bound on the size for small memory
allocations based on calculating the size class region. This function is safe
to use from signal handlers already.