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My assumptions are simple ones at this point. This is what I'd assume for dumping L3:

  • Stop normal execution / operations which might affect cache state.
  • Where A is the starting memory location of what's currently in L3, read all locations from A to A + L3width - 1, displaying each.
  • Do some ordinary program processing which affects the cache state, keeping track of latest A.
  • Repeat from the top.

Q1: What incorrect assumptions have I made above? What have I left out? More detail please.

Q2: Is there any way to avoid changing the cache state when I write out the dump?

Q3: Would this process change for cache levels 2 and 1, other than using a different width and waiting a shorter time for the data to arrive?

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If you are looking to prove the point for a proposed HW support then you should learn cache architecture first. – Elalfer Apr 16 '14 at 23:12
    
@Elalfer No, that is not my intent. – Arcane Engineer Apr 16 '14 at 23:15
    
Then please edit your EDIT as it is a proposal for a HW support and not the prove. – Elalfer Apr 16 '14 at 23:17
up vote 0 down vote accepted

A.Q1. You can not be exactly sure what is in the cache right now. Therefore this algorithm doesn't really make sense. You might expect most of the data to be in the cache if you read A sequentially from A till A+L3width-1 and avoid doing ANYTHING else, but it is more or less bringing data to $ and expect it to stay there for some (short) time.

A.Q2. Nope. No way

A.Q3. Of course it would, even more than L3

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Er... Your A to Q1 makes no sense. The whole point of dumping the cache is to find out what's in it. And yes, since each cache level is a contiguous subset of memory, a sequential read of only those locations is going to avoid corrupting the state, no? What I am reading into this, though, is that OS background activities may be corrupting the cache state even as one is busy reading it. Lastly, I don't know what $ is. Q2: Not such a big deal, that. – Arcane Engineer Apr 16 '14 at 22:49
    
$ == Cache ;) Cache is not a contiguous subset of memory! This is where you are wrong on the first place. Cache consists of $-lines (64bytes for Intel arch). So L3$ might contain just a subset of [A,A+L3width-1] if any. – Elalfer Apr 16 '14 at 22:57
    
Trust me, there are no ways to find out what is in the $... And how do you expect the data to get to the $ on the first place? – Elalfer Apr 16 '14 at 22:58
    
Wrong. Read this and you will appreciate that it is indeed possible to dump cache with integrity, even while the processor is running. However, it probably takes a very specific environment, maybe a microkernel that precludes any background processes running rampant and trashing cache state. If I cannot guarantee same, my question becomes moot. – Arcane Engineer Apr 16 '14 at 23:05
    
In order to do that one have to have an access to CPU "debug" interface. And in this article they are showing algorithm to dump internal state by ways & sets. There are no ways to do it via publically available instruction sets – Elalfer Apr 16 '14 at 23:09

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