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I saw a line in xen's kernel code (file: xen/include/asm-x86/x86_64/page.h), but cannot understand why they are doing this:

/* Extract flags into 24-bit integer, or turn 24-bit flags into a pte mask. */                                                                      
#define get_pte_flags(x) (((int)((x) >> 40) & ~0xFFF) | ((int)(x) & 0xFFF))                                                                         
#define put_pte_flags(x) (((intpte_t)((x) & ~0xFFF) << 40) | ((x) & 0xFFF))     

As to

#define get_pte_flags(x) (((int)((x) >> 40) & ~0xFFF) | ((int)(x) & 0xFFF)) 

I understand ((int)(x) & 0xFFF) will extract the last 24 bits of x, but why they need the first part ((int)((x) >> 40) & ~0xFFF) ?

As to

  #define put_pte_flags(x) (((intpte_t)((x) & ~0xFFF) << 40) | ((x) & 0xFFF))  

I'm lost at the purpose of ((intpte_t)((x) & ~0xFFF) << 40). It should be 0 in my opinion. Then why do we need it?


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3 Answers 3

up vote 3 down vote accepted

I had to look twice at their code. Because it took me a minute to realize that 0xFFF is not 24 bits, it's only 12 bits. So take an example 64 bit input: 0xAABBCCDDEEFF1122. Shift it right by 40, and you get 0x0000000000AABBCC. ~0xFFF is shorthand in this case for 0xFFFFFFFFFFFFF000. And them together, and you get 0x0000000000AAB000. So basically, they grabbed the top 12 bits and moved them down. Then they or that with the bottom 12 bits. So they end up with 0x0000000000AAB122.

The other half does the opposite, takes 24 bits at the bottom, cuts them in half and puts 12 at the top and 12 at the bottom.

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If the topmost bit was set, will the right shift drag the sign bit along (arithmetic shift) or left-fill with 0 bits (logical shift)? If the former, the shift could give you 0xFFFFFFFFFFAABBCC. Would this depend on whether the original int was signed or unsigned? A brief look at some other SO threads suggest that it's usually done arithmetic shift. You would have to guarantee that the sign bit is always clear (0). –  Phil Perry Dec 31 '13 at 18:17
Hi @PhilPerry, the x has to been unsigned int, so it will be logic right shift. But thank you very much for pointing this pitfall out. :) –  Mike Xu Dec 31 '13 at 20:00
you need ~(0xFFFULL) to get 0xFFFFFFFFFFFFF000 –  Lưu Vĩnh Phúc Feb 5 at 9:10

0xFFF is not 24 one-bits, it's only 12.

Knowing this, you'll see that the purpose of get_pte_flags is to move the top 12 bits into position 12-24, like so:

xxxxxxxx xxxx0000 00000000 00000000 00000000 00000000 0000yyyy yyyyyyyy


00000000 00000000 00000000 00000000 00000000 xxxxxxxx xxxxyyyy yyyyyyyy

Of course, put_pte_flags does the inverse, moving the bits back to the most significant position.

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Think 64 bit.

On a 32 bit system the result would be 0, of course. But, when you shift 24 bit 40 bits left, you have

xxxxxxxx yyyyyyyy zzzzzzzz 00000000 00000000 00000000 00000000 00000000

which is a valid 64 bit value.

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