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By reading "understanding linux network internals" and "understanding linux kernel" the two books as well as other references, I am quite confused and need some clarifications about the "memory cache" and "memory pool" techniques. 1) Are they the same or different techniques? 2) If not the same, what makes the difference, or the distinct goals? 3) Also, how does the Slab Allocator come in?
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Regarding the slab allocator: So imagine memory is flat that is you have a block of 4 gigs contiguous memory. Then one of your programs reqeuests a 256 bytes of memory so what the memory allocator has to do is choose a suitable block of 256 bytes from this 4 gigs. So now you your memory looks something like <============256bytes=======================> (each = is a contiguous block of memory). Some time passes and a lot of programs operating with the memory require more 256 blocks or more or less so in the end your memory might look like: <==256==256=256=86=68=121===> so it gets fragmented and then there is no trace of your beautiful 4gig block of memory - this is fragmentation. Now, what the slab allocator would do is keep track of allocated objects and once they are not used anymore it will say that the memory is free when in fact it will be retained in some sort of List (You might wanna read about FreeLists). So now imagine that the first program relinquish the 256 bytes allocated and then a new would like to have 256 bytes so instead of allocating a new chunk of the main memory it might re-use the lastly freed 256 bytes without having to go through the burden of searching the physical memory for appropriate contiguous block of space. This is how you essentially implement the memory cache. This is done so that memory fragmentation is reduced overall because you might end up in situation where memory is so fragmented that it is unusable and the memory-manager has to do some magic to get you block of appropriate size. Where as using a slab allocator pro-actively combats (but doesn't eliminate) the problem. | ||||
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