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I'm designing a memory chip, and since this seems like the best place to ask a related system software question...

On a modern x86 processor, does system-level code (protection ring 0) run on physical memory addresses? And is it the same for the 64 bit spec?

(I need to know so I know whether addresses for system code go through the virtual/segmented memory subsystem or not.)

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They run as any other code. The only difference between Ring 0 the other rings is that Ring 0 can execute privileged instructions, and thus modify the memory address space and structure. This privilege, however, does not mean that Ring 0 cannot use virtual memory just like any other code. It is technically possible to run all processes in Ring 0 and maintain the same virtual memory behavior, assuming the processes don't attempt to modify it. It is also possible to run less privileged ring processes without virtual memory address spaces.

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Ah, well. There goes one optimization... Thank you. –  root Nov 7 '12 at 20:34

No, it is still a flat virtual memory model. Driver code and data can be paged out as normal unless specific countermeasures are made to lock the pages. A common blue screen stop code is KERNEL_DATA_INPAGE_ERROR for example.

A typical call to map physical memory is MmAllocatePagesForMdl()

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