# Free List builder track length This commit makes the free list builder track the length of the lists in the Random case. # Refactor free list creation. Minor refactoring to share code between the new free list and existing path. # Randomise slab filling Knowing when a slab is going to become full makes it easier to by pass the free list entries as protection for OOB writes. This commit randomises when a slab will become full. This commit changes two things * the free list builder can return some fraction of the deallocations on a slab. * when there is a single free slab, we can with some probability allocate an additional slab. These two combine to make it difficult to predict when a slab will be free. # Apply suggestions from code review Co-authored-by: Nathaniel Wesley Filardo <nfilardo@microsoft.com>
snmalloc
snmalloc is a high-performance allocator.
snmalloc can be used directly in a project as a header-only C++ library,
it can be LD_PRELOADed on Elf platforms (e.g. Linux, BSD),
and there is a crate to use it from Rust.
Its key design features are:
- Memory that is freed by the same thread that allocated it does not require any synchronising operations.
- Freeing memory in a different thread to initially allocated it, does not take any locks and instead uses a novel message passing scheme to return the memory to the original allocator, where it is recycled. This enables 1000s of remote deallocations to be performed with only a single atomic operation enabling great scaling with core count.
- The allocator uses large ranges of pages to reduce the amount of meta-data required.
- The fast paths are highly optimised with just two branches on the fast path for malloc (On Linux compiled with Clang).
- The platform dependencies are abstracted away to enable porting to other platforms.
snmalloc's design is particular well suited to the following two difficult scenarios that can be problematic for other allocators:
- Allocations on one thread are freed by a different thread
- Deallocations occur in large batches
Both of these can cause massive reductions in performance of other allocators, but do not for snmalloc.
Comprehensive details about snmalloc's design can be found in the accompanying paper, and differences between the paper and the current implementation are described here. Since writing the paper, the performance of snmalloc has improved considerably.
Further documentation
Contributing
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