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I'm confused as to the structuring of the SLAB memory management mechanism.

I get that there are multiple 'caches' that are specific to commonly used data objects, but why does each cache contain multiple 'slabs'?

What differentiates each slab within a cache? Why not simply have the cache filled with the data objects themselves? Why does there need to be this extra layer?

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1 Answer 1

up vote 5 down vote accepted

The slab allocator is an abstraction layer to make easier allocation of numerous objects of a same type. The interface offers the function

struct kmem_cache * kmem_cache_create(const char *name,
    size_t size, size_t align, unsigned long flags,
    void (*ctor)(void*));

This function creates a new slab allocator that will be able to handle allocation of size-bytes long objects. If the creation is successful, you get your pointer to the related struct kmem_cache. This structures holds information about the slabs it manages.

As it is implied on the Wikipedia description, the purpose of such an extra layer is to prevent memory fragmentation issues that could happen if the memory allocation was made in a simple and intuitive manner. To do so, it introduces the notion of slab through the following data structure :

struct slab {
    struct list_head list; /* embedded list structure */
    unsigned long colouroff;
    void *s_mem; /* first object in the slab */
    unsigned int inuse; /* allocated objects in the slab */
    kmem_bufctl_t free; /* first free object (if any) */

Thus, the kmem_cache object holds 3 lists of its slabs, gathered in 3 flavours :

  • Empty slabs : these slabs do not contain an in-use object.
  • Partial slabs : these slabs contain objects currently used but there is still memory area that can hold new objects.
  • Full slabs : these slabs contains objects being used and cannot host new objects (full ...).

When requesting an object through the slab allocator, it will try to get the required memory area within a partial slab, if it cannot, it will get it from an empty slab.

If you are eager to collect more information about this, you should take a look at this article and if you do like books, try out the Robert Love's Linux Kernel Development

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