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Following function is used to get the page's base address of an address which is inside this page:

void* GetPageAddress(void* pAddress)
    return (void*)((ULONG_PTR)pAddress & ~(PAGE_SIZE - 1));

But I couldn't quite get it, what is the trick it plays here?

Personally, I think Amardeep's explanation plus Alex B's example are best answers. As Alex B's answer has already been voted up, I would like to accept Amardeep's answer as the official one to highlight it! Thanks you all.

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4 Answers 4

up vote 6 down vote accepted

What it does is clears the bits of the address that fit within the mask created by the page size. Effectively it gets the first valid address of a block.

PAGE_SIZE must be a power of 2 and is represented by a single bit set in the address.

The mask is created by subtracting one from PAGE_SIZE. That effectively sets all the bits that are a lower order than the page size bit. The ~ then complements all those bits to zero and sets all the bits that are a higher order than the mask. The & then effectively strips all the lower bits away, leaving the actual base address of the page containing the original address.

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"The ~ then complements all those bits to zero and sets all the bits that are a higher order than the mask" ---- To match the size of left handle operand of &, right? –  Baiyan Huang Jun 11 '10 at 15:28
The ~ will return the same size as its operand. In this case, if PAGE_SIZE is just a macro defined to a literal number, it will default to whatever 'int' is on your target platform, probably 32 bits. The code example you gave will not work on a 64 bit system. It would need: return (void*)((ULONG_PTR)pAddress & ~(void *)(PAGE_SIZE - 1)); –  Amardeep Jun 11 '10 at 17:34

The function clears low bits of a given address, which yields the address of its page.

For example, if PAGE_SIZE is 4096, then in 32-bit binary:

   PAGE_SIZE      = 00000000000000000001000000000000b
   PAGE_SIZE - 1  = 00000000000000000000111111111111b
 ~(PAGE_SIZE - 1) = 11111111111111111111000000000000b

If you bitwise-and it with a 32-bit address, it will turn lower bits into zeros, rounding the address to the nearest 4096-byte page address.

 ~(PAGE_SIZE - 1)             = 11111111111111111111000000000000b
                    pAddress  = 11010010100101110110110100100100b
 ~(PAGE_SIZE - 1) & pAddress  = 11010010100101110110000000000000b

So, in decimal, original address is 3533139236, page address (address with lower bits stripped) is 3533135872 = 862582 x 4096, is a multiple of 4096.

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Nice work with the numeric example. –  mskfisher Jun 11 '10 at 15:38

When PAGE_SIZE is some power of 2 (say 4096 for example), this clears all the bits below those that specify the page.

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Yea, seems the PAGE_SIZE has to be power of 2, or else the result is wrong, but then why ~(PAGE_SIZE-1), I think we could just use PAGE_SIZE –  Baiyan Huang Jun 11 '10 at 15:11
@Dbger: PAGE_SIZE, if a power of two is represented by a single bit. You need all the bits set that are lower order than that one in order to create a mask of the correct size. –  Amardeep Jun 11 '10 at 15:14
If PAGE_SIZE is a power of 2, then complementing it will give you a mask with only a single zero bit, which doesn't help much. –  TMN Jun 11 '10 at 15:20
Mentioning sign extension when the 32-bit value gets expanded to 64-bits might be necessary. –  Hans Passant Jun 11 '10 at 15:26

This is just a tricky way of clearing the low order bits.

Another way to implement it might be

void* GetPageAddress(void* pAddress)
    return pAddress - pAddress%PAGE_SIZE;

That probably won't compile, as you need to cast the types a bit, bit it shows the algorithm.

Effectively it is getting the largest multiple of PAGE_SIZE that is less than pAddress.

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